Resultats globals: 188 registres trobats en 0.02 segons.
Articles, 119 registres trobats
Documents de recerca, 26 registres trobats
Materials acadèmics, 43 registres trobats
Articles 119 registres trobats  1 - 10següentfinal  anar al registre:
1.
11 p, 2.5 MB The small aromatic compound SynuClean-D inhibits the aggregation and seeded polymerization of multiple α-synuclein strains / Peña Díaz, Samuel (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Pujols, Jordi (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Vasili, Eftychia (Max Planck Institute for Experimental Medicine) ; Pinheiro, Francisca (Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular) ; Santos, Jaime (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Manglano-Artuñedo, Zoe (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Outeiro, Tiago F. (Scientific Employee With a Honorary Contract. Deutsches Zentrum für Neurodegenerative Erkrankungen (DZNE)) ; Ventura, Salvador (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí")
Parkinson's disease is a neurodegenerative disorder characterized by the loss of dopaminergic neurons in the substantia nigra, as well as the accumulation of intraneuronal proteinaceous inclusions known as Lewy bodies and Lewy neurites. [...]
2022 - 10.1016/j.jbc.2022.101902
Journal of biological chemistry, Vol. 298, Issue 5 (May 2022) , art. 101902  
2.
10 p, 7.1 MB Dual Antibody-Conjugated Amyloid Nanorods to Promote Selective Cell-Cell Interactions / Wang, Weiqiang (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Gil-Garcia, Marcos (Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular) ; Ventura, Salvador (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí")
Grafting biomolecules on nanostructures' surfaces is an increasingly used strategy to target pathogenic cells, with both diagnostic and therapeutic applications. However, nanomaterials monofunctionalized by conjugating a single type of ligand find limited uses in pathologies/therapies that require two or more targets/receptors to be targeted and/or activated with a single molecular entity simultaneously. [...]
2021 - 10.1021/acsami.0c21996
ACS applied materials & interfaces, Vol. 13, Issue 13 (April 2021) , p. 14875-14884  
3.
11 p, 433.0 KB Computational methods to predict protein aggregation / Navarro, Susanna (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Ventura, Salvador (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí")
In most cases, protein aggregation stems from the establishment of non-native intermolecular contacts. The formation of insoluble protein aggregates is associated with many human diseases and is a major bottleneck for the industrial production of protein-based therapeutics. [...]
2022 - 10.1016/j.sbi.2022.102343
Current Opinion in Structural Biology, Vol. 73 (april 2022) , p. 102343  
4.
11 p, 2.5 MB Mapping direct N2O emissions from peri-urban agriculture : the case of the Metropolitan Area of Barcelona / Mendoza Beltran, Angelica (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ; Jepsen, Kelzy (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ; Rufí Salís, Martí (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ; Ventura, Sergi (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ; Madrid, Cristina (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ; Villalba, Gara (Universitat Autònoma de Barcelona. Departament d'Enginyeria Química, Biològica i Ambiental)
Geographically explicit datasets reflecting local management of crops are needed to help improve direct nitrous oxide (N2O) emission inventories. Yet, the lack of geographically explicit datasets of relevant factors influencing the emissions make it difficult to estimate them in such way. [...]
2022 - 10.1016/j.scitotenv.2022.153514
Science of the total environment, Vol. 822 (May 2022) , art. 153514  
5.
65 p, 2.4 MB Measurement of the W → ℓν and Z/γ* → ℓℓ production cross sections in proton-proton collisions at √ s = 7 TeV with the ATLAS detector / Aad, G. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Abbott, B. (University of Oklahoma. Homer L. Dodge Department of Physics and Astronomy) ; Abdallah, J. (Institut de Física d'Altes Energies) ; Abdelalim, A. A. (Université de Genève. Section de Physique) ; Abdesselam, A. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Abdinov, O. (Institute of Physics. Azerbaijan Academy of Sciences) ; Abi, B. (Oklahoma State University. Department of Physics) ; Abolins, M. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Abramowicz, H. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Abreu, H. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Acerbi, E. (Università di Milano. Dipartimento di Fisica) ; Acharya, B. S. (ICTP) ; Ackers, M. (University of Bonn. Physikalisches Institut) ; Adams, D. L. (Brookhaven National Laboratory. Physics Department) ; Addy, T. N. (Hampton University. Department of Physics) ; Adelman, J. (Yale University. Department of Physics) ; Aderholz, M. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Adomeit, S. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Adorisio, C. (Dipartimento di Fisica. Università della Calabria) ; Adragna, P. (Queen Mary University of London. Department of Physics) ; Adye, T. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Aefsky, S. (Brandeis University. Department of Physics) ; Aguilar-Saavedra, J. A. (Universidad de Granada. Departamento de Fisica Teorica y del Cosmos and CAFPE) ; Aharrouche, M. (Universität Mainz. Institut für Physik) ; Ahlen, S. P. (Boston University. Department of Physics) ; Ahles, F. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Ahmad, A. (Stony Brook University. Department of Physics and Astronomy) ; Ahmed, H. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Ahsan, M. (University of Texas at Dallas) ; Aielli, G. (Università di Roma Tor Vergata. Dipartimento di Fisica) ; Akdogan, T. (Bogazici University. Faculty of Sciences. Department of Physics) ; Åkesson, T. P. A. (Fysiska institutionen. Lunds Universitet) ; Akimoto, G. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Akimov, A. V. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Aktas, A. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Alam, M. S. (University at Albany) ; Alam, M. A. (Royal Holloway. University of London. Department of Physics) ; Albrand, S. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Aleksa, M. (CERN) ; Aleksandrov, I. N. (Joint Institute for Nuclear Research. JINR Dubna) ; Aleppo, M. (Università di Milano. Dipartimento di Fisica) ; Alessandria, F. (INFN Sezione di Milano) ; Alexa, C. (National Institute of Physics and Nuclear Engineering) ; Alexander, G. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Alexandre, G. (Université de Genève. Section de Physique) ; Alexopoulos, T. (National Technical University of Athens. Physics Department) ; Alhroob, M. (University of Bonn. Physikalisches Institut) ; Aliev, M. (Humboldt University. Institute of Physics. Berlin) ; Alimonti, G. (INFN Sezione di Milano) ; Alison, J. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Aliyev, M. (Institute of Physics. Azerbaijan Academy of Sciences) ; Allport, P. P. (University of Liverpool. Oliver Lodge Laboratory) ; Allwood-Spiers, S. E. (University of Glasgow. Department of Physics and Astronomy) ; Almond, J. (University of Manchester. School of Physics and Astronomy) ; Aloisio, A. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Alon, R. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Alonso, A. (Fysiska institutionen. Lunds Universitet) ; Alonso, José R. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Alviggi, M. G. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Amako, K. (KEK. High Energy Accelerator Research Organization) ; Amaral, P. (CERN) ; Ambrosio, G. (FermiLab) ; Amelung, C. (Brandeis University. Department of Physics) ; Ammosov, V. V. (State Research Center Institute for High Energy Physics) ; Amorim, A. (Faculdade de Ciencias. Universidade de Lisboa) ; Amorós, G. (Institut de Microelectrònica de Barcelona) ; Amram, N. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Anastopoulos, C. (University of Sheffield. Department of Physics and Astronomy) ; Andeen, T. (Columbia University. Nevis Laboratory) ; Anders, C. F. (University of Bonn. Physikalisches Institut) ; Anderson, K. J. (University of Chicago. Enrico Fermi Institute) ; Andreazza, A. (Università di Milano. Dipartimento di Fisica) ; Andrei, V. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Andrieux, M. L. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Anduaga, X. S. (Universidad Nacional de La Plata. FCE. Departamento de Física. IFLP (CONICET-UNLP)) ; Angerami, A. (Columbia University. Nevis Laboratory) ; Anghinolfi, F. (CERN) ; Anjos, Nuno (Laboratório de Instrumentação e Física Experimental de Partículas - LIP) ; Annovi, A. (INFN Laboratori Nazionali di Frascati) ; Antonaki, A. (University of Athens. Nuclear and Particle Physics. Department of Physics) ; Antonelli, M. (INFN Laboratori Nazionali di Frascati) ; Antonelli, S. (Dipartimento di Fisica. Università di Bologna) ; Antos, J. (Institute of Experimental Physics of the Slovak Academy of Sciences. Dept. of Subnuclear Physics) ; Antunovic, B. (DESY) ; Anulli, F. (INFN Sezione di Roma I) ; Aoun, S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Apolle, R. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Arabidze, G. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Aracena, I. (SLAC National Accelerator Laboratory) ; Arai, Y. (KEK. High Energy Accelerator Research Organization) ; Arce, A. T. H. (Duke University. Department of Physics) ; Archambault, J. P. (Carleton University. Department of Physics) ; Arfaoui, S. (CPPM) ; Arguin, J. F. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Argyropoulos, T. (National Technical University of Athens. Physics Department) ; Arik, E. (Bogazici University. Faculty of Sciences. Department of Physics) ; Arik, M. (Bogazici University. Faculty of Sciences. Department of Physics) ; Armbruster, A. J. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Arms, K. E. (Ohio State University) ; Armstrong, S. R. (Brookhaven National Laboratory. Physics Department) ; Arnaez, O. (LAPP. Université de Savoie. CNRS/IN2P3) ; Arnault, C. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Artamonov, A. (Institute for Theoretical and Experimental Physics (ITEP)) ; Arutinov, D. (University of Bonn. Physikalisches Institut) ; Asai, M. (SLAC National Accelerator Laboratory) ; Asai, S. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Asfandiyarov, R. (University of Wisconsin. Department of Physics) ; Ask, S. (University of Cambridge. Cavendish Laboratory) ; Åsman, B. (Oskar Klein Centre. AlbaNova) ; Asner, D. (Carleton University. Department of Physics) ; Asquith, L. (Argonne National Laboratory. High Energy Physics Division) ; Assamagan, K. (Brookhaven National Laboratory. Physics Department) ; Astbury, A. (University of Victoria. Department of Physics and Astronomy) ; Astvatsatourov, A. (Justus-Liebig-Universität Giessen. II Physikalisches Institut) ; Atoian, G. (Yale University. Department of Physics) ; Aubert, B. (LAPP. Université de Savoie. CNRS/IN2P3) ; Auerbach, B. (Yale University. Department of Physics) ; Auge, E. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Augsten, K. (Czech Technical University in Prague) ; Aurousseau, M. (LAPP. Université de Savoie. CNRS/IN2P3) ; Austin, N. (University of Liverpool. Oliver Lodge Laboratory) ; Avolio, G. (University of California. Department of Physics and Astronomy) ; Avramidou, R. (National Technical University of Athens. Physics Department) ; Axen, D. (University of British Columbia. Department of Physics) ; Ay, C. (Georg-August-Universität. II. Physikalisches Institut) ; Azuelos, G. (TRIUMF) ; Azuma, Y. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Baak, M. A. (CERN) ; Baccaglioni, G. (INFN Sezione di Milano) ; Bacci, C. (Università Roma Tre. Dipartimento di Fisica) ; Bach, A. M. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Bachacou, H. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Bachas, K. (CERN) ; Bachy, G. (CERN) ; Backes, M. (Université de Genève. Section de Physique) ; Badescu, E. (National Institute of Physics and Nuclear Engineering) ; Bagnaia, P. (Università La Sapienza. Dipartimento di Fisica) ; Bai, Y. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Bailey, D. C. (University of Toronto. Department of Physics) ; Bain, T. (University of Toronto. Department of Physics) ; Baines, J. T. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Baker, O. K. (Yale University. Department of Physics) ; Baker, M. D. (Brookhaven National Laboratory. Physics Department) ; Baker, S. (University College London. Department of Physics and Astronomy) ; Baltasar Dos Santos Pedrosa, F. (CERN) ; Banas, E. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Banerjee, P. (University of Montreal. Group of Particle Physics) ; Banerjee, S. (University of Victoria. Department of Physics and Astronomy) ; Banfi, D. (Università di Milano. Dipartimento di Fisica) ; Bangert, A. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Bansal, V. (University of Victoria. Department of Physics and Astronomy) ; Baranov, S. P. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Baranov, S. (Joint Institute for Nuclear Research. JINR Dubna) ; Barashkou, A. (Joint Institute for Nuclear Research. JINR Dubna) ; Barbaro Galtieri, A. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Barber, T. (University of Cambridge. Cavendish Laboratory) ; Barberio, E. L. (University of Melbourne. School of Physics) ; Barberis, D. (Università di Genova. Dipartimento di Fisica) ; Barbero, M. (University of Bonn. Physikalisches Institut) ; Bardin, D. Y. (Joint Institute for Nuclear Research. JINR Dubna) ; Barillari, T. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Barisonzi, M. (Bergische Universität. Fachbereich C. Physik) ; Barklow, T. (SLAC National Accelerator Laboratory) ; Barlow, N. (University of Cambridge. Cavendish Laboratory) ; Barnett, B. M. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Barnett, R. M. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Baroncelli, A. (INFN Sezione di Roma Tre) ; Barone, M. (INFN Laboratori Nazionali di Frascati) ; Barr, A. J. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Barreiro, F. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Barreiro Guimarães Da Costa, J. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Barrillon, P. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Bartoldus, R. (SLAC National Accelerator Laboratory) ; Bartsch, D. (University of Bonn. Physikalisches Institut) ; Bates, R. L. (University of Glasgow. Department of Physics and Astronomy) ; Batkova, L. (Comenius University. Faculty of Mathematics. Physics and Informatics) ; Batley, J. R. (University of Cambridge. Cavendish Laboratory) ; Battaglia, A. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Battistin, M. (CERN) ; Battistoni, G. (INFN Sezione di Milano) ; Bauer, F. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Bawa, H. S. (SLAC National Accelerator Laboratory) ; Bazalova, M. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Beare, B. (University of Toronto. Department of Physics) ; Beau, T. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Beauchemin, P. H. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Beccherle, R. (INFN Sezione di Genova) ; Bechtle, P. (DESY) ; Beck, G. A. (Queen Mary University of London. Department of Physics) ; Beck, H. P. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Beckingham, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Becks, K. H. (Bergische Universität. Fachbereich C. Physik) ; Beddall, A. J. (Gaziantep University. Faculty of Engineering. Department of Physics Engineering) ; Beddall, A. (Gaziantep University. Faculty of Engineering. Department of Physics Engineering) ; Bednyakov, V. A. (Joint Institute for Nuclear Research. JINR Dubna) ; Bee, C. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Begel, M. (Brookhaven National Laboratory. Physics Department) ; Behar Harpaz, S. (Technion. Israel Inst. of Technology. Department of Physics) ; Behera, P. K. (University of Iowa) ; Beimforde, M. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Belanger-Champagne, C. (University of Uppsala. Department of Physics and Astronomy) ; Belhorma, B. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Bell, P. J. (Université de Genève. Section de Physique) ; Bell, W. H. (Université de Genève. Section de Physique) ; Bella, G. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Bellagamba, L. (INFN Sezione di Bologna) ; Bellina, F. (CERN) ; Bellomo, G. (Università di Milano. Dipartimento di Fisica) ; Bellomo, M. (INFN Sezione di Pavia) ; Belloni, A. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Belotskiy, K. (Moscow Engineering and Physics Institute (MEPhI)) ; Beltramello, O. (CERN) ; Ben Ami, S. (Technion. Israel Inst. of Technology. Department of Physics) ; Benary, O. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Benchekroun, D. (Réseau Universitaire de Physique des Hautes Energies (RUPHE): Université Hassan II. Faculté des Sciences Ain Chock) ; Benchouk, C. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Bendel, M. (Universität Mainz. Institut für Physik) ; Benedict, B. H. (University of California. Department of Physics and Astronomy) ; Benekos, N. (University of Illinois. Department of Physics) ; Benhammou, Y. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Benincasa, G. P. (Laboratório de Instrumentação e Física Experimental de Partículas - LIP) ; Benjamin, D. P. (Duke University. Department of Physics) ; Benoit, M. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Bensinger, J. R. (Brandeis University. Department of Physics) ; Benslama, K. (University of Regina. Physics Department) ; Bentvelsen, S. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Beretta, M. (INFN Laboratori Nazionali di Frascati) ; Berge, D. (CERN) ; Bergeaas Kuutmann, E. (DESY) ; Berger, N. (LAPP. Université de Savoie. CNRS/IN2P3) ; Berghaus, F. (University of Victoria. Department of Physics and Astronomy) ; Berglund, E. (Université de Genève. Section de Physique) ; Beringer, J. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Bernardet, K. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Bernat, P. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Bernhard, R. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Bernius, C. (University College London. Department of Physics and Astronomy) ; Berry, T. (Royal Holloway. University of London. Department of Physics) ; Bertin, A. (Dipartimento di Fisica. Università di Bologna) ; Bertinelli, F. (CERN) ; Bertolucci, F. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Besana, M. I. (Università di Milano. Dipartimento di Fisica) ; Besson, N. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Bethke, S. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Bhimji, W. (University of Edinburgh. School of Physics and Astronomy. James Clerk Maxwell Building) ; Bianchi, R. M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Bianco, M. (Università del Salento. Dipartimento di Fisica) ; Biebel, O. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Biesiada, J. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Biglietti, M. (Università La Sapienza. Dipartimento di Fisica) ; Bilokon, H. (INFN Laboratori Nazionali di Frascati) ; Binder, M. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Bindi, M. (Dipartimento di Fisica. Università di Bologna) ; Binet, S. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Bingul, A. (Gaziantep University. Faculty of Engineering. Department of Physics Engineering) ; Bini, C. (Università La Sapienza. Dipartimento di Fisica) ; Biscarat, C. (Centre de Calcul. CNRS/IN2P3. Domaine scientifique de la Doua) ; Bischof, R. (Institut für Astro- und Teilchenphysik) ; Bitenc, U. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Black, K. M. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Blair, R. E. (Argonne National Laboratory. High Energy Physics Division) ; Blanchard, J. B. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Blanchot, G. (CERN) ; Blocker, C. (Brandeis University. Department of Physics) ; Blocki, J. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Blondel, A. (Université de Genève. Section de Physique) ; Blum, W. (Universität Mainz. Institut für Physik) ; Blumenschein, U. (Georg-August-Universität. II. Physikalisches Institut) ; Boaretto, C. (Università La Sapienza. Dipartimento di Fisica) ; Bobbink, G. J. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Bobrovnikov, V. B. (Budker Institute of Nuclear Physics) ; Bocci, A. (Duke University. Department of Physics) ; Bocian, D. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Bock, R. (CERN) ; Boddy, C. R. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Boehler, M. (DESY) ; Boek, J. (Bergische Universität. Fachbereich C. Physik) ; Boelaert, N. (Fysiska institutionen. Lunds Universitet) ; Böser, S. (University College London. Department of Physics and Astronomy) ; Bogaerts, J. A. (CERN) ; Bogdanchikov, A. (Budker Institute of Nuclear Physics) ; Bogouch, A. (B.I. Stepanov Institute of Physics. National Academy of Sciences of Belarus) ; Bohm, C. (Stockholm University. Department of Physics) ; Bohm, J. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Boisvert, V. (Royal Holloway. University of London. Department of Physics) ; Bold, T. (University of California. Department of Physics and Astronomy) ; Boldea, V. (National Institute of Physics and Nuclear Engineering) ; Bondarenko, V. G. (Moscow Engineering and Physics Institute (MEPhI)) ; Bondioli, M. (University of California. Department of Physics and Astronomy) ; Boonekamp, M. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Boorman, G. (Royal Holloway. University of London. Department of Physics) ; Booth, C. N. (University of Sheffield. Department of Physics and Astronomy) ; Booth, P. (University of Sheffield. Department of Physics and Astronomy) ; Booth, J. R. A. (University of Birmingham. School of Physics and Astronomy) ; Bordoni, S. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Borer, C. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Borisov, A. (State Research Center Institute for High Energy Physics) ; Borissov, G. (Lancaster University. Physics Department) ; Borjanovic, I. (University of Belgrade. Institute of Physics) ; Borroni, S. (Università La Sapienza. Dipartimento di Fisica) ; Bos, K. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Boscherini, D. (INFN Sezione di Bologna) ; Bosman, Martine (Institut de Física d'Altes Energies) ; Boterenbrood, H. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Botterill, D. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Bouchami, J. (University of Montreal. Group of Particle Physics) ; Boudreau, J. (University of Pittsburgh. Department of Physics and Astronomy) ; Bouhova-Thacker, E. V. (Lancaster University. Physics Department) ; Boulahouache, C. (University of Pittsburgh. Department of Physics and Astronomy) ; Bourdarios, C. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Boveia, A. (University of Chicago. Enrico Fermi Institute) ; Boyd, J. (CERN) ; Boyko, I. R. (Joint Institute for Nuclear Research. JINR Dubna) ; Bozhko, N. I. (State Research Center Institute for High Energy Physics) ; Bozovic-Jelisavcic, I. (Vinca Institute of Nuclear Sciences) ; Braccini, S. (INFN Laboratori Nazionali di Frascati) ; Bracinik, J. (University of Birmingham. School of Physics and Astronomy) ; Braem, A. (CERN) ; Brambilla, E. (Università del Salento. Dipartimento di Fisica) ; Branchini, P. (INFN Sezione di Roma Tre) ; Brandenburg, G. W. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Brandt, A. (University of Texas at Arlington. Department of Physics) ; Brandt, G. (DESY) ; Brandt, O. (Georg-August-Universität. II. Physikalisches Institut) ; Bratzler, U. (Tokyo Metropolitan University. Graduate School of Science and Technology) ; Brau, B. (University of Massachusetts. Department of Physics) ; Brau, J. E. (University of Oregon. Center for High Energy Physics) ; Braun, H. M. (Bergische Universität. Fachbereich C. Physik) ; Brelier, B. (University of Toronto. Department of Physics) ; Bremer, J. (CERN) ; Brenner, R. (University of Uppsala. Department of Physics and Astronomy) ; Bressler, S. (Technion. Israel Inst. of Technology. Department of Physics) ; Breton, D. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Brett, N. D. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Bright-Thomas, P. G. (University of Birmingham. School of Physics and Astronomy) ; Britton, D. (University of Glasgow. Department of Physics and Astronomy) ; Brochu, F. M. (University of Cambridge. Cavendish Laboratory) ; Brock, I. (University of Bonn. Physikalisches Institut) ; Brock, R. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Brodbeck, T. J. (Lancaster University. Physics Department) ; Brodet, E. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Broggi, F. (INFN Sezione di Milano) ; Bromberg, C. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Brooijmans, G. (Columbia University. Nevis Laboratory) ; Brooks, W. K. (Universidad Técnica Federico Santa María. Departamento de Física) ; Brown, G. (University of Manchester. School of Physics and Astronomy) ; Brubaker, E. (University of Chicago. Enrico Fermi Institute) ; Bruckman De Renstrom, P. A. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Bruncko, D. (Institute of Experimental Physics of the Slovak Academy of Sciences. Dept. of Subnuclear Physics) ; Bruneliere, R. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Brunet, S. (Indiana University. Department of Physics) ; Bruni, A. (INFN Sezione di Bologna) ; Bruni, G. (INFN Sezione di Bologna) ; Bruschi, M. (INFN Sezione di Bologna) ; Buanes, T. (University of Bergen. Department for Physics and Technology) ; Bucci, F. (Université de Genève. Section de Physique) ; Buchanan, J. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Buchanan, N. J. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Buchholz, P. (Universität Siegen. Fachbereich Physik) ; Buckingham, R. M. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Buckley, A. G. (University of Edinburgh. School of Physics and Astronomy. James Clerk Maxwell Building) ; Budagov, I. A. (Joint Institute for Nuclear Research. JINR Dubna) ; Budick, B. (New York University. Department of Physics) ; Büscher, V. (Universität Mainz. Institut für Physik) ; Bugge, L. (University of Oslo. Department of Physics) ; Buira-Clark, D. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Buis, E. J. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Bulekov, O. (Moscow Engineering and Physics Institute (MEPhI)) ; Bunse, M. (TU Dortmund. Experimentelle Physik IV) ; Buran, T. (University of Oslo. Department of Physics) ; Burckhart, H. (CERN) ; Burdin, S. (University of Liverpool. Oliver Lodge Laboratory) ; Burgess, T. (University of Bergen. Department for Physics and Technology) ; Burke, S. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Busato, E. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Bussey, P. (University of Glasgow. Department of Physics and Astronomy) ; Buszello, C. P. (University of Uppsala. Department of Physics and Astronomy) ; Butin, F. (CERN) ; Butler, B. (SLAC National Accelerator Laboratory) ; Butler, J. M. (Boston University. Department of Physics) ; Buttar, C. M. (University of Glasgow. Department of Physics and Astronomy) ; Butterworth, J. M. (University College London. Department of Physics and Astronomy) ; Byatt, T. (University College London. Department of Physics and Astronomy) ; Caballero, J. (Brookhaven National Laboratory. Physics Department) ; Cabrera Urbán, S. (Institut de Microelectrònica de Barcelona) ; Caccia, M. (Universita' dell'Insubria. Dipartimento di Fisica e Matematica) ; Caforio, D. (Dipartimento di Fisica. Università di Bologna) ; Cakir, O. (Ankara University. Faculty of Sciences. Department of Physics) ; Calafiura, P. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Calderini, G. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Calfayan, P. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Calkins, R. (Department of Physics. Northern Illinois University) ; Caloba, L. P. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Caloi, R. (Università La Sapienza. Dipartimento di Fisica) ; Calvet, D. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Calvet, S. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Camard, A. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Camarri, P. (Università di Roma Tor Vergata. Dipartimento di Fisica) ; Cambiaghi, M. (Università di Pavia. Dipartimento di Fisica Nucleare e Teorica) ; Cameron, D. (University of Oslo. Department of Physics) ; Cammin, J. (University of Bonn. Physikalisches Institut) ; Campana, S. (CERN) ; Campanelli, M. (University College London. Department of Physics and Astronomy) ; Canale, V. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Canelli, F. (University of Chicago. Enrico Fermi Institute) ; Canepa, A. (TRIUMF) ; Cantero, J. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Capasso, L. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Capeans Garrido, M. D. M. (CERN) ; Caprini, I. (National Institute of Physics and Nuclear Engineering) ; Caprini, M. (National Institute of Physics and Nuclear Engineering) ; Caprio, M. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Capriotti, D. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Capua, M. (Dipartimento di Fisica. Università della Calabria) ; Caputo, R. (Stony Brook University. Department of Physics and Astronomy) ; Caramarcu, C. (National Institute of Physics and Nuclear Engineering) ; Cardarelli, R. (INFN Sezione di Roma Tor Vergata) ; Carli, T. (CERN) ; Carlino, G. (INFN Sezione di Napoli) ; Carminati, L. (Università di Milano. Dipartimento di Fisica) ; Caron, B. (TRIUMF) ; Caron, S. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Carpentieri, C. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Carrillo Montoya, G. D. (University of Wisconsin. Department of Physics) ; Carron Montero, S. (University of Toronto. Department of Physics) ; Carter, A. A. (Queen Mary University of London. Department of Physics) ; Carter, J. R. (University of Cambridge. Cavendish Laboratory) ; Carvalho, J. (Department of Physics. University of Coimbra) ; Casadei, D. (New York University. Department of Physics) ; Casado, M. P. (Institut de Física d'Altes Energies) ; Cascella, M. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Caso, C. (Università di Genova. Dipartimento di Fisica) ; Castaneda Hernandez, A. M. (University of Wisconsin. Department of Physics) ; Castaneda-Miranda, E. (University of Wisconsin. Department of Physics) ; Castillo Gimenez, V. (Institut de Microelectrònica de Barcelona) ; Castro, N. F. (Universidad de Granada. Departamento de Fisica Teorica y del Cosmos and CAFPE) ; Cataldi, G. (INFN Sezione di Lecce) ; Cataneo, F. (CERN) ; Catinaccio, A. (CERN) ; Catmore, J. R. (Lancaster University. Physics Department) ; Cattai, A. (CERN) ; Cattani, G. (Università di Roma Tor Vergata. Dipartimento di Fisica) ; Caughron, S. (Columbia University. Nevis Laboratory) ; Cauz, D. (Università di Udine. Dipartimento di Fisica) ; Cavallari, A. (Università La Sapienza. Dipartimento di Fisica) ; Cavalleri, P. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Cavalli, D. (INFN Sezione di Milano) ; Cavalli-Sforza, Matteo (Institut de Física d'Altes Energies) ; Cavasinni, V. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Cazzato, A. (Università del Salento. Dipartimento di Fisica) ; Ceradini, F. (Università Roma Tre. Dipartimento di Fisica) ; Cerna, C. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Cerqueira, A. S. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Cerri, A. (CERN) ; Cerrito, L. (Queen Mary University of London. Department of Physics) ; Cerutti, F. (INFN Laboratori Nazionali di Frascati) ; Cervetto, M. (Università di Genova. Dipartimento di Fisica) ; Cetin, S. A. (Dogus University. Faculty of Arts and Sciences. Department of Physics) ; Cevenini, F. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Chafaq, A. (Réseau Universitaire de Physique des Hautes Energies (RUPHE): Université Hassan II. Faculté des Sciences Ain Chock) ; Chakraborty, D. (Department of Physics. Northern Illinois University) ; Chan, K. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Chapman, J. D. (University of Cambridge. Cavendish Laboratory) ; Chapman, J. W. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Chareyre, E. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Charlton, D. G. (University of Birmingham. School of Physics and Astronomy) ; Chavda, V. (University of Manchester. School of Physics and Astronomy) ; Cheatham, S. (Lancaster University. Physics Department) ; Chekanov, S. (Argonne National Laboratory. High Energy Physics Division) ; Chekulaev, S. V. (TRIUMF) ; Chelkov, G. A. (Joint Institute for Nuclear Research. JINR Dubna) ; Chen, H. (Brookhaven National Laboratory. Physics Department) ; Chen, L. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Chen, S. (Nanjing University. Department of Physics) ; Chen, T. (Nanjing University. Department of Physics) ; Chen, X. (University of Wisconsin. Department of Physics) ; Cheng, S. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Cheplakov, A. (Joint Institute for Nuclear Research. JINR Dubna) ; Chepurnov, V. F. (Joint Institute for Nuclear Research. JINR Dubna) ; Cherkaoui El Moursli, R. (Université Mohammed V. Faculté des Sciences) ; Tcherniatine, V. (Brookhaven National Laboratory. Physics Department) ; Chesneanu, D. (National Institute of Physics and Nuclear Engineering) ; Cheu, E. (University of Arizona. Department of Physics) ; Cheung, S. L. (University of Toronto. Department of Physics) ; Chevalier, L. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Chevallier, F. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Chiarella, V. (INFN Laboratori Nazionali di Frascati) ; Chiefari, G. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Chikovani, L. (Tbilisi State University. HEP Institute) ; Childers, J. T. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Chilingarov, A. (Lancaster University. Physics Department) ; Chiodini, G. (INFN Sezione di Lecce) ; Chizhov, M. V. (Joint Institute for Nuclear Research. JINR Dubna) ; Choudalakis, G. (University of Chicago. Enrico Fermi Institute) ; Chouridou, S. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Christidi, I. A. (University College London. Department of Physics and Astronomy) ; Christov, A. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Chromek-Burckhart, D. (CERN) ; Chu, M. L. (Insitute of Physics. Academia Sinica) ; Chudoba, J. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Ciapetti, G. (Università La Sapienza. Dipartimento di Fisica) ; Ciftci, A. K. (Ankara University. Faculty of Sciences. Department of Physics) ; Ciftci, R. (Ankara University. Faculty of Sciences. Department of Physics) ; Cinca, D. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Cindro, V. (Jožef Stefan Institute. University of Ljubljana. Department of Physics) ; Ciobotaru, M. D. (University of California. Department of Physics and Astronomy) ; Ciocca, C. (Dipartimento di Fisica. Università di Bologna) ; Ciocio, A. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Cirilli, M. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Citterio, M. (INFN Sezione di Milano) ; Clark, A. (Université de Genève. Section de Physique) ; Clark, P. J. (University of Edinburgh. School of Physics and Astronomy. James Clerk Maxwell Building) ; Cleland, W. (University of Pittsburgh. Department of Physics and Astronomy) ; Clemens, J. C. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Clement, B. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Clement, C. (Oskar Klein Centre. AlbaNova) ; Clifft, R. W. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Coadou, Y. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Cobal, M. (Università di Udine. Dipartimento di Fisica) ; Coccaro, A. (Università di Genova. Dipartimento di Fisica) ; Cochran, J. (Iowa State University. Department of Physics and Astronomy. Ames High Energy Physics Group) ; Coe, P. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Coelli, S. (INFN Sezione di Milano) ; Coggeshall, J. (University of Illinois. Department of Physics) ; Cogneras, E. (Centre de Calcul. CNRS/IN2P3. Domaine scientifique de la Doua) ; Cojocaru, C. D. (Carleton University. Department of Physics) ; Colas, J. (LAPP. Université de Savoie. CNRS/IN2P3) ; Cole, B. (Columbia University. Nevis Laboratory) ; Colijn, A. P. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Collard, C. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Collins, N. J. (University of Birmingham. School of Physics and Astronomy) ; Collins-Tooth, C. (University of Glasgow. Department of Physics and Astronomy) ; Collot, J. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Colon, G. (University of Massachusetts. Department of Physics) ; Coluccia, R. (Università del Salento. Dipartimento di Fisica) ; Comune, G. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Conde Muiño, P. (Laboratório de Instrumentação e Física Experimental de Partículas - LIP) ; Coniavitis, E. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Conidi, M. C. (Institut de Física d'Altes Energies) ; Consonni, M. (Radboud University Nijmegen/NIKHEF. Department of Experimental High Energy Physics) ; Constantinescu, S. (National Institute of Physics and Nuclear Engineering) ; Conta, C. (Università di Pavia. Dipartimento di Fisica Nucleare e Teorica) ; Conventi, F. (Università di Napoli Parthenope) ; Cook, J. (CERN) ; Cooke, M. (Columbia University. Nevis Laboratory) ; Cooper, B. D. (Queen Mary University of London. Department of Physics) ; Cooper-Sarkar, A. M. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Cooper-Smith, N. J. (Royal Holloway. University of London. Department of Physics) ; Copic, K. (Columbia University. Nevis Laboratory) ; Cornelissen, T. (Università di Genova. Dipartimento di Fisica) ; Corradi, M. (INFN Sezione di Bologna) ; Correard, S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Corriveau, F. (Institute of Particle Physics (IPP)) ; Corso-Radu, A. (University of California. Department of Physics and Astronomy) ; Cortes-Gonzalez, A. (University of Illinois. Department of Physics) ; Cortiana, G. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Costa, G. (INFN Sezione di Milano) ; Costa, M. J. (Institut de Microelectrònica de Barcelona) ; Costanzo, D. (University of Sheffield. Department of Physics and Astronomy) ; Costin, T. (University of Chicago. Enrico Fermi Institute) ; Côté, D. (CERN) ; Coura Torres, R. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Courneyea, L. (University of Victoria. Department of Physics and Astronomy) ; Cowan, G. (Royal Holloway. University of London. Department of Physics) ; Cowden, C. (University of Cambridge. Cavendish Laboratory) ; Cox, B. E. (University of Manchester. School of Physics and Astronomy) ; Cranmer, K. (New York University. Department of Physics) ; Cranshaw, J. (Argonne National Laboratory. High Energy Physics Division) ; Cristinziani, M. (University of Bonn. Physikalisches Institut) ; Crosetti, G. (Dipartimento di Fisica. Università della Calabria) ; Crupi, R. (Università del Salento. Dipartimento di Fisica) ; Crépé-Renaudin, S. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Cuenca Almenar, C. (Yale University. Department of Physics) ; Cuhadar Donszelmann, T. (University of Sheffield. Department of Physics and Astronomy) ; Cuneo, S. (Università di Genova. Dipartimento di Fisica) ; Curatolo, M. (INFN Laboratori Nazionali di Frascati) ; Curtis, C. J. (University of Birmingham. School of Physics and Astronomy) ; Cwetanski, P. (Indiana University. Department of Physics) ; Czirr, H. (Universität Siegen. Fachbereich Physik) ; Czyczula, Z. (Yale University. Department of Physics) ; D'Auria, S. (University of Glasgow. Department of Physics and Astronomy) ; D'Onofrio, M. (University of Liverpool. Oliver Lodge Laboratory) ; D'Orazio, A. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Da Rocha Gesualdi Mello, A. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Da Silva, P. V. M. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Da Via, C. (University of Manchester. School of Physics and Astronomy) ; Dabrowski, W. (Faculty of Physics and Applied Computer Science. AGH-University of Science and Technology) ; Dahlhoff, A. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Dai, T. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Dallapiccola, C. (University of Massachusetts. Department of Physics) ; Dallison, S. J. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Daly, C. H. (University of Washington. Seattle. Department of Physics) ; Dam, M. (University of Copenhagen. Niels Bohr Institute) ; Dameri, M. (Università di Genova. Dipartimento di Fisica) ; Damiani, D. S. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Danielsson, H. O. (CERN) ; Dankers, R. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Dannheim, D. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Dao, V. (Université de Genève. Section de Physique) ; Darbo, G. (INFN Sezione di Genova) ; Darlea, G. L. (University Politehnica Bucharest) ; Daum, C. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Dauvergne, J. P. (CERN) ; Davey, W. (University of Melbourne. School of Physics) ; Davidek, T. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Davidson, N. (University of Melbourne. School of Physics) ; Davidson, R. (Lancaster University. Physics Department) ; Davies, M. (University of Montreal. Group of Particle Physics) ; Davison, A. R. (University College London. Department of Physics and Astronomy) ; Dawe, E. (Simon Fraser University. Department of Physics) ; Dawson, I. (University of Sheffield. Department of Physics and Astronomy) ; Dawson, J. W. (Argonne National Laboratory. High Energy Physics Division) ; Daya, R. K. (Southern Methodist University. Physics Department) ; De, K. (University of Texas at Arlington. Department of Physics) ; De Asmundis, R. (INFN Sezione di Napoli) ; De Castro, S. (Dipartimento di Fisica. Università di Bologna) ; De Castro Faria Salgado, P. E. (Brookhaven National Laboratory. Physics Department) ; De Cecco, S. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; De Graat, J. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; De Groot, N. (Radboud University Nijmegen/NIKHEF. Department of Experimental High Energy Physics) ; De Jong, P. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; De La Cruz-Burelo, E. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; De La Taille, C. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; De Lotto, B. (Università di Udine. Dipartimento di Fisica) ; De Mora, L. (Lancaster University. Physics Department) ; De Nooij, L. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; De Oliveira Branco, M. (CERN) ; De Pedis, D. (INFN Sezione di Roma I) ; De Saintignon, P. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; De Salvo, A. (INFN Sezione di Roma I) ; De Sanctis, U. (Università di Udine. Dipartimento di Fisica) ; De Santo, A. (University of Sussex. Department of Physics and Astronomy) ; De Vivie De Regie, J. B. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; De Zorzi, G. (Università La Sapienza. Dipartimento di Fisica) ; Dean, S. (University College London. Department of Physics and Astronomy) ; Dedes, G. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Dedovich, D. V. (Joint Institute for Nuclear Research. JINR Dubna) ; Defay, P. O. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Degenhardt, J. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Dehchar, M. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Deile, M. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Del Papa, C. (Università di Udine. Dipartimento di Fisica) ; Del Peso, J. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Del Prete, T. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Dell'Acqua, A. (CERN) ; Dell'Asta, L. (Università di Milano. Dipartimento di Fisica) ; Della Pietra, M. (Università di Napoli Parthenope) ; Della Volpe, D. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Delmastro, M. (CERN) ; Delpierre, P. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Delruelle, N. (CERN) ; Delsart, P. A. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Deluca, C. (Stony Brook University. Department of Physics and Astronomy) ; Demers, S. (Yale University. Department of Physics) ; Demichev, M. (Joint Institute for Nuclear Research. JINR Dubna) ; Demirkoz, B. (Institut de Física d'Altes Energies) ; Deng, J. (University of California. Department of Physics and Astronomy) ; Deng, W. (Brookhaven National Laboratory. Physics Department) ; Denisov, S. P. (State Research Center Institute for High Energy Physics) ; Dennis, C. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Derkaoui, J. E. (Université Mohamed Premier. LPTPM. Faculté des Sciences) ; Derue, F. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Dervan, P. (University of Liverpool. Oliver Lodge Laboratory) ; Desch, K. (University of Bonn. Physikalisches Institut) ; Deviveiros, P. O. (University of Toronto. Department of Physics) ; Dewhurst, A. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; DeWilde, B. (Stony Brook University. Department of Physics and Astronomy) ; Dhaliwal, S. (University of Toronto. Department of Physics) ; Dhullipudi, R. (Louisiana Tech. University) ; Di Ciaccio, A. (Università di Roma Tor Vergata. Dipartimento di Fisica) ; Di Ciaccio, L. (LAPP. Université de Savoie. CNRS/IN2P3) ; Di Domenico, A. (Università La Sapienza. Dipartimento di Fisica) ; Di Girolamo, A. (CERN) ; Di Girolamo, B. (CERN) ; Di Luise, S. (Università Roma Tre. Dipartimento di Fisica) ; Di Mattia, A. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Di Nardo, R. (Università di Roma Tor Vergata. Dipartimento di Fisica) ; Di Simone, A. (Università di Roma Tor Vergata. Dipartimento di Fisica) ; Di Sipio, R. (Dipartimento di Fisica. Università di Bologna) ; Diaz, M. A. (Pontificia Universidad Católica de Chile. Facultad de Fisica. Departamento de Fisica) ; Diaz Gomez, M. M. (Université de Genève. Section de Physique) ; Diblen, F. (Gaziantep University. Faculty of Engineering. Department of Physics Engineering) ; Diehl, E. B. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Dietl, H. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Dietrich, J. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Dietzsch, T. A. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Diglio, S. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Dindar Yagci, K. (Southern Methodist University. Physics Department) ; Dingfelder, J. (University of Bonn. Physikalisches Institut) ; Dionisi, C. (Università La Sapienza. Dipartimento di Fisica) ; Dita, P. (National Institute of Physics and Nuclear Engineering) ; Dita, S. (National Institute of Physics and Nuclear Engineering) ; Dittus, F. (CERN) ; Djama, F. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Djilkibaev, R. (New York University. Department of Physics) ; Djobava, T. (Tbilisi State University. HEP Institute) ; Do Vale, M. A. B. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Do Valle Wemans, A. (Laboratório de Instrumentação e Física Experimental de Partículas - LIP) ; Doan, T. K. O. (LAPP. Université de Savoie. CNRS/IN2P3) ; Dobbs, M. (McGill University. High Energy Physics Group) ; Dobinson, R. (CERN) ; Dobos, D. (TU Dortmund. Experimentelle Physik IV) ; Dobson, E. (CERN) ; Dobson, M. (University of California. Department of Physics and Astronomy) ; Dodd, J. (Columbia University. Nevis Laboratory) ; Dogan, O. B. (Bogazici University. Faculty of Sciences. Department of Physics) ; Doglioni, C. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Doherty, T. (University of Glasgow. Department of Physics and Astronomy) ; Doi, Y. (KEK. High Energy Accelerator Research Organization) ; Dolejsi, J. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Dolenc, I. (Jožef Stefan Institute. University of Ljubljana. Department of Physics) ; Dolezal, Z. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Dolgoshein, B. A. (Moscow Engineering and Physics Institute (MEPhI)) ; Dohmae, T. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Donadelli, M. (Universidade de Sao Paulo. Instituto de Fisica) ; Donega, M. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Donini, J. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Dopke, J. (Bergische Universität. Fachbereich C. Physik) ; Doria, A. (INFN Sezione di Napoli) ; Dos Anjos, A. (University of Wisconsin. Department of Physics) ; Dosil, M. (Institut de Física d'Altes Energies) ; Dotti, A. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Dova, M. T. (Universidad Nacional de La Plata. FCE. Departamento de Física. IFLP (CONICET-UNLP)) ; Dowell, J. D. (University of Birmingham. School of Physics and Astronomy) ; Doxiadis, A. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Doyle, A. T. (University of Glasgow. Department of Physics and Astronomy) ; Drasal, Z. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Drees, J. (Bergische Universität. Fachbereich C. Physik) ; Dressnandt, N. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Drevermann, H. (CERN) ; Driouichi, C. (University of Copenhagen. Niels Bohr Institute) ; Dris, M. (National Technical University of Athens. Physics Department) ; Drohan, J. G. (University College London. Department of Physics and Astronomy) ; Dubbert, J. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Dubbs, T. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Dube, S. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Duchovni, E. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Duckeck, G. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Dudarev, A. (CERN) ; Dudziak, F. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Dührssen, M. (CERN) ; Duerdoth, I. P. (University of Manchester. School of Physics and Astronomy) ; Duot, L. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Dufour, M. A. (McGill University. High Energy Physics Group) ; Dunford, M. (CERN) ; Duran Yildiz, H. (Dumlupinar University. Faculty of Arts and Sciences. Department of Physics) ; Dushkin, A. (Brandeis University. Department of Physics) ; Duxfield, R. (University of Sheffield. Department of Physics and Astronomy) ; Dwuznik, M. (Faculty of Physics and Applied Computer Science. AGH-University of Science and Technology) ; Dydak, F. (CERN) ; Dzahini, D. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Düren, M. (Justus-Liebig-Universität Giessen. II Physikalisches Institut) ; Ebenstein, W. L. (Duke University. Department of Physics) ; Ebke, J. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Eckert, S. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Eckweiler, S. (Universität Mainz. Institut für Physik) ; Edmonds, K. (Universität Mainz. Institut für Physik) ; Edwards, C. A. (Royal Holloway. University of London. Department of Physics) ; Efthymiopoulos, I. (Université de Genève. Section de Physique) ; Egorov, K. (Indiana University. Department of Physics) ; Ehrenfeld, W. (DESY) ; Ehrich, T. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Eifert, T. (CERN) ; Eigen, G. (University of Bergen. Department for Physics and Technology) ; Einsweiler, K. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Eisenhandler, E. (Queen Mary University of London. Department of Physics) ; Ekelof, T. (University of Uppsala. Department of Physics and Astronomy) ; El Kacimi, M. (LAPP. Université de Savoie. CNRS/IN2P3) ; Ellert, M. (University of Uppsala. Department of Physics and Astronomy) ; Elles, S. (LAPP. Université de Savoie. CNRS/IN2P3) ; Ellinghaus, F. (Universität Mainz. Institut für Physik) ; Ellis, K. (Queen Mary University of London. Department of Physics) ; Ellis, N. (CERN) ; Elmsheuser, J. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Elsing, M. (CERN) ; Ely, R. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Emeliyanov, D. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Engelmann, R. (Stony Brook University. Department of Physics and Astronomy) ; Engl, A. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Epp, B. (Institut für Astro- und Teilchenphysik) ; Eppig, A. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Erdmann, J. (Georg-August-Universität. II. Physikalisches Institut) ; Ereditato, A. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Eriksson, D. (Stockholm University. Department of Physics) ; Ermoline, I. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Ernst, J. (University at Albany) ; Ernst, M. (Brookhaven National Laboratory. Physics Department) ; Ernwein, J. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Errede, D. (University of Illinois. Department of Physics) ; Errede, S. (University of Illinois. Department of Physics) ; Ertel, E. (Universität Mainz. Institut für Physik) ; Escalier, M. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Escobar, C. (Institut de Microelectrònica de Barcelona) ; Espinal Curull, X. (Institut de Física d'Altes Energies) ; Esposito, B. (INFN Laboratori Nazionali di Frascati) ; Etienne, F. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Etienvre, A. I. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Etzion, E. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Evangelakou, D. (Georg-August-Universität. II. Physikalisches Institut) ; Evans, H. (Indiana University. Department of Physics) ; Evdokimov, V. N. (State Research Center Institute for High Energy Physics) ; Fabbri, L. (Dipartimento di Fisica. Università di Bologna) ; Fabre, C. (CERN) ; Facius, K. (University of Copenhagen. Niels Bohr Institute) ; Fakhrutdinov, R. M. (State Research Center Institute for High Energy Physics) ; Falciano, S. (INFN Sezione di Roma I) ; Falou, A. C. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Fang, Y. (University of Wisconsin. Department of Physics) ; Fanti, M. (Università di Milano. Dipartimento di Fisica) ; Farbin, A. (University of Texas at Arlington. Department of Physics) ; Farilla, A. (INFN Sezione di Roma Tre) ; Farley, J. (Stony Brook University. Department of Physics and Astronomy) ; Farooque, T. (University of Toronto. Department of Physics) ; Farrington, S. M. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Farthouat, P. (CERN) ; Fasching, D. (University of Wisconsin. Department of Physics) ; Fassnacht, P. (CERN) ; Fassouliotis, D. (University of Athens. Nuclear and Particle Physics. Department of Physics) ; Fatholahzadeh, B. (University of Toronto. Department of Physics) ; Fayard, L. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Fazio, S. (Dipartimento di Fisica. Università della Calabria) ; Febbraro, R. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Federic, P. (Comenius University. Faculty of Mathematics. Physics and Informatics) ; Fedin, O. L. (Petersburg Nuclear Physics Institute) ; Fedorko, I. (CERN) ; Fedorko, W. (CERN) ; Fehling-Kaschek, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Feligioni, L. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Felzmann, C. U. (University of Melbourne. School of Physics) ; Feng, C. (Shandong University. High Energy Physics Group) ; Feng, E. J. (University of Chicago. Enrico Fermi Institute) ; Fenyuk, A. B. (State Research Center Institute for High Energy Physics) ; Ferencei, J. (Institute of Experimental Physics of the Slovak Academy of Sciences. Dept. of Subnuclear Physics) ; Ferguson, D. (University of Wisconsin. Department of Physics) ; Ferland, J. (University of Montreal. Group of Particle Physics) ; Fernandes, B. (Universidade de Lisboa) ; Fernando, W. (Ohio State University) ; Ferrag, S. (University of Glasgow. Department of Physics and Astronomy) ; Ferrando, J. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Ferrara, V. (DESY) ; Ferrari, A. (University of Uppsala. Department of Physics and Astronomy) ; Ferrari, P. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Ferrari, R. (INFN Sezione di Pavia) ; Ferrer, A. (Institut de Microelectrònica de Barcelona) ; Ferrer, M. L. (INFN Laboratori Nazionali di Frascati) ; Ferrere, D. (Université de Genève. Section de Physique) ; Ferretti, C. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Ferretto Parodi, A. (Università di Genova. Dipartimento di Fisica) ; Ferro, F. (Università di Genova. Dipartimento di Fisica) ; Fiascaris, M. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Fiedler, F. (Universität Mainz. Institut für Physik) ; Filipčič, A. (Jožef Stefan Institute. University of Ljubljana. Department of Physics) ; Filippas, A. (National Technical University of Athens. Physics Department) ; Filthaut, F. (Radboud University Nijmegen/NIKHEF. Department of Experimental High Energy Physics) ; Fincke-Keeler, M. (University of Victoria. Department of Physics and Astronomy) ; Fiolhais, M. C. N. (Department of Physics. University of Coimbra) ; Fiorini, L. (Institut de Física d'Altes Energies) ; Firan, A. (Southern Methodist University. Physics Department) ; Fischer, G. (DESY) ; Fischer, P. (University of Bonn. Physikalisches Institut) ; Fisher, M. J. (Ohio State University) ; Fisher, S. M. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Flammer, J. (CERN) ; Flechl, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Fleck, I. (Universität Siegen. Fachbereich Physik) ; Fleckner, J. (Universität Mainz. Institut für Physik) ; Fleischmann, P. (Julius-Maximilians-University of Würzburg. Physikalisches Institute) ; Fleischmann, S. (University of Bonn. Physikalisches Institut) ; Flick, T. (Bergische Universität. Fachbereich C. Physik) ; Flores Castillo, L. R. (University of Wisconsin. Department of Physics) ; Flowerdew, M. J. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Föhlisch, F. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Fokitis, M. (National Technical University of Athens. Physics Department) ; Fonseca Martin, T. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Fopma, J. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Forbush, D. A. (University of Washington. Seattle. Department of Physics) ; Formica, A. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Forti, A. (University of Manchester. School of Physics and Astronomy) ; Fortin, D. (TRIUMF) ; Foster, J. M. (University of Manchester. School of Physics and Astronomy) ; Fournier, D. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Foussat, A. (CERN) ; Fowler, A. J. (Duke University. Department of Physics) ; Fowler, K. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Fox, H. (Lancaster University. Physics Department) ; Francavilla, P. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Franchino, S. (Università di Pavia. Dipartimento di Fisica Nucleare e Teorica) ; Francis, D. (CERN) ; Franklin, M. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Franz, S. (CERN) ; Fraternali, M. (Università di Pavia. Dipartimento di Fisica Nucleare e Teorica) ; Fratina, S. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Freestone, J. (University of Manchester. School of Physics and Astronomy) ; French, S. T. (University of Cambridge. Cavendish Laboratory) ; Froeschl, R. (CERN) ; Froidevaux, D. (CERN) ; Frost, J. A. (University of Cambridge. Cavendish Laboratory) ; Fukunaga, C. (Tokyo Metropolitan University. Graduate School of Science and Technology) ; Fullana Torregrosa, E. (CERN) ; Fuster, J. (Institut de Microelectrònica de Barcelona) ; Gabaldon, C. (CERN) ; Gabizon, O. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Gadfort, T. (Brookhaven National Laboratory. Physics Department) ; Gadomski, S. (Université de Genève. Section de Physique) ; Gagliardi, G. (Università di Genova. Dipartimento di Fisica) ; Gagnon, P. (Indiana University. Department of Physics) ; Galea, C. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Gallas, E. J. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Gallas, M. V. (CERN) ; Gallo, V. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Gallop, B. J. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Gallus, P. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Galyaev, E. (University of Texas at Dallas) ; Gan, K. K. (Ohio State University) ; Gao, Y. S. (California State University) ; Gapienko, V. A. (State Research Center Institute for High Energy Physics) ; Gaponenko, A. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Garcia-Sciveres, M. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; García, C. (Institut de Microelectrònica de Barcelona) ; García Navarro, J. E. (Université de Genève. Section de Physique) ; Gardner, R. W. (University of Chicago. Enrico Fermi Institute) ; Garelli, N. (CERN) ; Garitaonandia, H. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Garonne, V. (CERN) ; Garvey, J. (University of Birmingham. School of Physics and Astronomy) ; Gatti, C. (INFN Laboratori Nazionali di Frascati) ; Gaudio, G. (INFN Sezione di Pavia) ; Gaumer, O. (Université de Genève. Section de Physique) ; Gaur, B. (Universität Siegen. Fachbereich Physik) ; Gautard, V. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Gauzzi, P. (Università La Sapienza. Dipartimento di Fisica) ; Gavrilenko, I. L. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Gay, C. (University of British Columbia. Department of Physics) ; Gaycken, G. (University of Bonn. Physikalisches Institut) ; Gayde, J. C. (CERN) ; Gazis, E. N. (National Technical University of Athens. Physics Department) ; Ge, P. (Shandong University. High Energy Physics Group) ; Gee, C. N. P. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Geich-Gimbel, C. (University of Bonn. Physikalisches Institut) ; Gellerstedt, K. (Oskar Klein Centre. AlbaNova) ; Gemme, C. (INFN Sezione di Genova) ; Genest, M. H. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Gentile, S. (Università La Sapienza. Dipartimento di Fisica) ; Georgatos, F. (National Technical University of Athens. Physics Department) ; George, S. (Royal Holloway. University of London. Department of Physics) ; Gerlach, P. (Bergische Universität. Fachbereich C. Physik) ; Gershon, A. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Geweniger, C. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Ghazlane, H. (Université Mohammed V. Faculté des Sciences) ; Ghez, P. (LAPP. Université de Savoie. CNRS/IN2P3) ; Ghodbane, N. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Giacobbe, B. (INFN Sezione di Bologna) ; Giagu, S. (Università La Sapienza. Dipartimento di Fisica) ; Giakoumopoulou, V. (University of Athens. Nuclear and Particle Physics. Department of Physics) ; Giangiobbe, V. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Gianotti, F. (CERN) ; Gibbard, B. (Brookhaven National Laboratory. Physics Department) ; Gibson, A. (University of Toronto. Department of Physics) ; Gibson, S. M. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Gieraltowski, G. F. (Argonne National Laboratory. High Energy Physics Division) ; Gilbert, L. M. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Gilchriese, M. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Gildemeister, O. (CERN) ; Gilewsky, V. (National Scientific and Educational Centre for Particle and High Energy Physics. NC PHEP BSU) ; Gillberg, D. (Carleton University. Department of Physics) ; Gillman, A. R. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Gingrich, D. M. (TRIUMF) ; Ginzburg, J. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Giokaris, N. (University of Athens. Nuclear and Particle Physics. Department of Physics) ; Giordani, M. P. (Università di Udine. Dipartimento di Fisica) ; Giordano, R. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Giorgi, F. M. (Humboldt University. Institute of Physics. Berlin) ; Giovannini, P. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Giraud, P. F. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Girtler, P. (Institut für Astro- und Teilchenphysik) ; Giugni, D. (INFN Sezione di Milano) ; Giusti, P. (INFN Sezione di Bologna) ; Gjelsten, B. K. (University of Oslo. Department of Physics) ; Gladilin, L. K. (Lomonosov Moscow State University. Skobeltsyn Institute of Nuclear Physics) ; Glasman, C. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Glatzer, J. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Glazov, A. (DESY) ; Glitza, K. W. (Bergische Universität. Fachbereich C. Physik) ; Glonti, G. L. (Joint Institute for Nuclear Research. JINR Dubna) ; Gnanvo, K. G. (Queen Mary University of London. Department of Physics) ; Godfrey, J. (Simon Fraser University. Department of Physics) ; Godlewski, J. (CERN) ; Goebel, M. (DESY) ; Göpfert, T. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Goeringer, C. (Universität Mainz. Institut für Physik) ; Gössling, C. (TU Dortmund. Experimentelle Physik IV) ; Göttfert, T. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Goggi, V. (Istituto Universitario di Studi Superiori IUSS) ; Goldfarb, S. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Goldin, D. (Southern Methodist University. Physics Department) ; Golling, T. (Yale University. Department of Physics) ; Gollub, N. P. (CERN) ; Golovnia, S. N. (State Research Center Institute for High Energy Physics) ; Gomes, A. (Faculdade de Ciencias. Universidade de Lisboa) ; Gomez Fajardo, L. S. (DESY) ; Gonçalo, R. (Royal Holloway. University of London. Department of Physics) ; Gonella, L. (University of Bonn. Physikalisches Institut) ; Gong, C. (University of Science and Technology of China (USTC). Department of Modern Physics) ; Gonidec, A. (CERN) ; Gonzalez, S. (University of Wisconsin. Department of Physics) ; González De La Hoz, S. (Institut de Microelectrònica de Barcelona) ; Gonzalez Silva, M. L. (Universidad de Buenos Aires. FCEyN. Dto. Fisica) ; Gonzalez-Pineiro, B. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Gonzalez-Sevilla, S. (Université de Genève. Section de Physique) ; Goodson, J. J. (Stony Brook University. Department of Physics and Astronomy) ; Goossens, L. (CERN) ; Gorbounov, P. A. (Institute for Theoretical and Experimental Physics (ITEP)) ; Gordon, H. A. (Brookhaven National Laboratory. Physics Department) ; Gorelov, I. (University of New Mexico. Department of Physics and Astronomy) ; Gorfine, G. (Bergische Universität. Fachbereich C. Physik) ; Gorini, B. (CERN) ; Gorini, E. (Università del Salento. Dipartimento di Fisica) ; Gorišek, A. (Jožef Stefan Institute. University of Ljubljana. Department of Physics) ; Gornicki, E. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Gorokhov, S. A. (State Research Center Institute for High Energy Physics) ; Gorski, B. T. (CERN) ; Goryachev, V. N. (State Research Center Institute for High Energy Physics) ; Gosdzik, B. (DESY) ; Gosselink, M. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Gostkin, M. I. (Joint Institute for Nuclear Research. JINR Dubna) ; Gouanère, M. (LAPP. Université de Savoie. CNRS/IN2P3) ; Gough Eschrich, I. (University of California. Department of Physics and Astronomy) ; Gouighri, M. (Réseau Universitaire de Physique des Hautes Energies (RUPHE): Université Hassan II. Faculté des Sciences Ain Chock) ; Goujdami, D. (Réseau Universitaire de Physique des Hautes Energies (RUPHE): Université Hassan II. Faculté des Sciences Ain Chock) ; Goulette, M. P. (Université de Genève. Section de Physique) ; Goussiou, A. G. (University of Washington. Seattle. Department of Physics) ; Goy, C. (LAPP. Université de Savoie. CNRS/IN2P3) ; Grabowska-Bold, I. (University of California. Department of Physics and Astronomy) ; Grabski, V. (Yerevan Physics Institute) ; Grafström, P. (CERN) ; Grah, C. (Bergische Universität. Fachbereich C. Physik) ; Grahn, K. J. (Kungl. Tekniska högskolan (Estocolm (Suècia)) ; Grancagnolo, F. (INFN Sezione di Lecce) ; Grancagnolo, S. (Humboldt University. Institute of Physics. Berlin) ; Grassi, V. (Stony Brook University. Department of Physics and Astronomy) ; Gratchev, V. (Petersburg Nuclear Physics Institute) ; Grau, N. (Columbia University. Nevis Laboratory) ; Gray, H. M. (California Institute of Technology (Estats Units d'Amèrica)) ; Gray, J. A. (Stony Brook University. Department of Physics and Astronomy) ; Graziani, E. (INFN Sezione di Roma Tre) ; Grebenyuk, O. G. (Petersburg Nuclear Physics Institute) ; Green, B. (Royal Holloway. University of London. Department of Physics) ; Greenfield, D. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Greenshaw, T. (University of Liverpool. Oliver Lodge Laboratory) ; Greenwood, Z. D. (Louisiana Tech. University) ; Gregor, I. M. (DESY) ; Grenier, P. (SLAC National Accelerator Laboratory) ; Grewal, A. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Griesmayer, E. (Fachhochschule Wiener Neustadt) ; Griffiths, J. (University of Washington. Seattle. Department of Physics) ; Grigalashvili, N. (Joint Institute for Nuclear Research. JINR Dubna) ; Grillo, A. A. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Grimm, K. (Stony Brook University. Department of Physics and Astronomy) ; Grinstein, Sebastian (Institut de Física d'Altes Energies) ; Grishkevich, Y. V. (Lomonosov Moscow State University. Skobeltsyn Institute of Nuclear Physics) ; Grivaz, J. F. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Groer, L. S. (University of Toronto. Department of Physics) ; Grognuz, J. (CERN) ; Groh, M. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Gross, E. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Grosse-Knetter, J. (Georg-August-Universität. II. Physikalisches Institut) ; Groth-Jensen, J. (Fysiska institutionen. Lunds Universitet) ; Gruwe, M. (CERN) ; Grybel, K. (Universität Siegen. Fachbereich Physik) ; Guarino, V. J. (Argonne National Laboratory. High Energy Physics Division) ; Guicheney, C. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Guida, A. (Università del Salento. Dipartimento di Fisica) ; Guillemin, T. (LAPP. Université de Savoie. CNRS/IN2P3) ; Guindon, S. (Georg-August-Universität. II. Physikalisches Institut) ; Guler, H. (University of Montreal) ; Gunther, J. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Guo, B. (University of Toronto. Department of Physics) ; Gupta, A. (University of Chicago. Enrico Fermi Institute) ; Gusakov, Y. (Joint Institute for Nuclear Research. JINR Dubna) ; Gushchin, V. N. (State Research Center Institute for High Energy Physics) ; Gutierrez, A. (University of Montreal. Group of Particle Physics) ; Gutierrez, P. (University of Oklahoma. Homer L. Dodge Department of Physics and Astronomy) ; Guttman, N. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Gutzwiller, O. (University of Wisconsin. Department of Physics) ; Guyot, C. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Gwenlan, C. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Gwilliam, C. B. (University of Liverpool. Oliver Lodge Laboratory) ; Haas, A. (SLAC National Accelerator Laboratory) ; Haas, S. (CERN) ; Haber, C. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Haboubi, G. (University of Pittsburgh. Department of Physics and Astronomy) ; Hackenburg, R. (Brookhaven National Laboratory. Physics Department) ; Hadavand, H. K. (Southern Methodist University. Physics Department) ; Hadley, D. R. (University of Birmingham. School of Physics and Astronomy) ; Haeberli, C. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Haefner, P. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Härtel, R. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Hahn, F. (CERN) ; Haider, S. (CERN) ; Hajduk, Z. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Hakobyan, H. (Yerevan Physics Institute) ; Haller, J. (Institut für Experimentalphysik. Universität Hamburg) ; Hallewell, G. D. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Hamacher, K. (Bergische Universität. Fachbereich C. Physik) ; Hamilton, A. (Université de Genève. Section de Physique) ; Hamilton, S. (Tufts University. Science and Technology Center) ; Han, H. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Han, L. (University of Science and Technology of China (USTC). Department of Modern Physics) ; Hanagaki, K. (Osaka University. Graduate School of Science) ; Hance, M. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Handel, C. (Universität Mainz. Institut für Physik) ; Hanke, P. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Hansen, C. J. (University of Uppsala. Department of Physics and Astronomy) ; Hansen, J. R. (University of Copenhagen. Niels Bohr Institute) ; Hansen, J. B. (University of Copenhagen. Niels Bohr Institute) ; Hansen, J. D. (University of Copenhagen. Niels Bohr Institute) ; Hansen, P. H. (University of Copenhagen. Niels Bohr Institute) ; Hansl-Kozanecka, T. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Hansson, P. (SLAC National Accelerator Laboratory) ; Hara, K. (University of Tsukuba. Institute of Pure and Applied Sciences) ; Hare, G. A. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Harenberg, T. (Bergische Universität. Fachbereich C. Physik) ; Harper, R. (University of Sheffield. Department of Physics and Astronomy) ; Harrington, R. D. (Boston University. Department of Physics) ; Harris, O. M. (University of Washington. Seattle. Department of Physics) ; Harrison, K. (University of Birmingham. School of Physics and Astronomy) ; Hart, J. C. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Hartert, J. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Hartjes, F. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Haruyama, T. (KEK. High Energy Accelerator Research Organization) ; Harvey, A. (Hampton University. Department of Physics) ; Hasegawa, S. (Nagoya University. Graduate School of Science) ; Hasegawa, Y. (Shinshu University. Department of Physics. Faculty of Science) ; Hashemi, K. (Brandeis University. Department of Physics) ; Hassani, S. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Hatch, M. (CERN) ; Hauff, D. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Haug, S. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Hauschild, M. (CERN) ; Hauser, R. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Havranek, M. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Hawes, B. M. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Hawkes, C. M. (University of Birmingham. School of Physics and Astronomy) ; Hawkings, R. J. (CERN) ; Hawkins, D. (University of California. Department of Physics and Astronomy) ; Hayakawa, T. (Kobe University. Graduate School of Science) ; Hayward, H. S. (University of Liverpool. Oliver Lodge Laboratory) ; Haywood, S. J. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Hazen, E. (Boston University. Department of Physics) ; He, M. (Shandong University. High Energy Physics Group) ; Head, S. J. (University of Birmingham. School of Physics and Astronomy) ; Hedberg, V. (Fysiska institutionen. Lunds Universitet) ; Heelan, L. (Carleton University. Department of Physics) ; Heim, S. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Heinemann, B. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Heisterkamp, S. (University of Copenhagen. Niels Bohr Institute) ; Helary, L. (LAPP. Université de Savoie. CNRS/IN2P3) ; Heldmann, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Heller, M. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Hellman, S. (Oskar Klein Centre. AlbaNova) ; Helsens, C. (Institut de Física d'Altes Energies) ; Hemperek, T. (University of Bonn. Physikalisches Institut) ; Henderson, R. C. W. (Lancaster University. Physics Department) ; Hendriks, P. J. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Henke, M. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Henrichs, A. (Georg-August-Universität. II. Physikalisches Institut) ; Henriques Correia, A. M. (CERN) ; Henrot-Versille, S. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Henry-Couannier, F. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Hensel, C. (Georg-August-Universität. II. Physikalisches Institut) ; Henß, T. (Bergische Universität. Fachbereich C. Physik) ; Hernández Jiménez, Y. (Institut de Microelectrònica de Barcelona) ; Hershenhorn, A. D. (Technion. Israel Inst. of Technology. Department of Physics) ; Herten, G. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Hertenberger, R. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Hervas, L. (CERN) ; Hessey, N. P. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Hidvegi, A. (Stockholm University. Department of Physics) ; Higón-Rodriguez, E. (Institut de Microelectrònica de Barcelona) ; Hill, D. (Argonne National Laboratory. High Energy Physics Division) ; Hill, J. C. (University of Cambridge. Cavendish Laboratory) ; Hill, N. (Argonne National Laboratory. High Energy Physics Division) ; Hiller, K. H. (DESY) ; Hillert, S. (University of Bonn. Physikalisches Institut) ; Hillier, S. J. (University of Birmingham. School of Physics and Astronomy) ; Hinchliffe, I. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Hindson, D. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Hines, E. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Hirose, M. (Osaka University. Graduate School of Science) ; Hirsch, F. (TU Dortmund. Experimentelle Physik IV) ; Hirschbuehl, D. (Bergische Universität. Fachbereich C. Physik) ; Hobbs, J. (Stony Brook University. Department of Physics and Astronomy) ; Hod, N. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Hodgkinson, M. C. (University of Sheffield. Department of Physics and Astronomy) ; Hodgson, P. (University of Sheffield. Department of Physics and Astronomy) ; Hoecker, A. (CERN) ; Hoeferkamp, M. R. (University of New Mexico. Department of Physics and Astronomy) ; Hoffman, J. (Southern Methodist University. Physics Department) ; Hoffmann, D. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Hohlfeld, M. (Universität Mainz. Institut für Physik) ; Holder, M. (Universität Siegen. Fachbereich Physik) ; Hollins, T. I. (University of Birmingham. School of Physics and Astronomy) ; Holmes, A. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Holmgren, S. O. (Stockholm University. Department of Physics) ; Holy, T. (Czech Technical University in Prague) ; Holzbauer, J. L. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Homer, R. J. (University of Birmingham. School of Physics and Astronomy) ; Homma, Y. (Kobe University. Graduate School of Science) ; Horazdovsky, T. (Czech Technical University in Prague) ; Horn, C. (SLAC National Accelerator Laboratory) ; Horner, S. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Horton, K. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Hostachy, J. Y. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Hott, T. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Hou, S. (Insitute of Physics. Academia Sinica) ; Houlden, M. A. (University of Liverpool. Oliver Lodge Laboratory) ; Hoummada, A. (Réseau Universitaire de Physique des Hautes Energies (RUPHE): Université Hassan II. Faculté des Sciences Ain Chock) ; Howell, D. F. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Hrivnac, J. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Hruska, I. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Hryn'ova, T. (LAPP. Université de Savoie. CNRS/IN2P3) ; Hsu, P. J. (Yale University. Department of Physics) ; Hsu, S. C. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Huang, G. S. (University of Oklahoma. Homer L. Dodge Department of Physics and Astronomy) ; Hubacek, Z. (Czech Technical University in Prague) ; Hubaut, F. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Huegging, F. (University of Bonn. Physikalisches Institut) ; Huffman, T. B. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Hughes, E. W. (Columbia University. Nevis Laboratory) ; Hughes, G. (Lancaster University. Physics Department) ; Hughes-Jones, R. E. (University of Manchester. School of Physics and Astronomy) ; Huhtinen, M. (CERN) ; Hurst, P. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Hurwitz, M. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Husemann, U. (DESY) ; Huseynov, N. (Institute of Physics. Azerbaijan Academy of Sciences) ; Huston, J. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Huth, J. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Iacobucci, G. (INFN Sezione di Napoli) ; Iakovidis, G. (National Technical University of Athens. Physics Department) ; Ibbotson, M. (University of Manchester. School of Physics and Astronomy) ; Ibragimov, I. (Universität Siegen. Fachbereich Physik) ; Ichimiya, R. (Kobe University. Graduate School of Science) ; Iconomidou-Fayard, L. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Idarraga, J. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Idzik, M. (Faculty of Physics and Applied Computer Science. AGH-University of Science and Technology) ; Iengo, P. (LAPP. Université de Savoie. CNRS/IN2P3) ; Igonkina, O. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Ikegami, Y. (KEK. High Energy Accelerator Research Organization) ; Ikeno, M. (KEK. High Energy Accelerator Research Organization) ; Ilchenko, Y. (Southern Methodist University. Physics Department) ; Iliadis, D. (Aristotle University of Thessaloniki. Faculty of Science. Department of Physics) ; Imbault, D. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Imhaeuser, M. (Bergische Universität. Fachbereich C. Physik) ; Imori, M. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Ince, T. (University of Bonn. Physikalisches Institut) ; Inigo-Golfin, J. (CERN) ; Ioannou, P. (University of Athens. Nuclear and Particle Physics. Department of Physics) ; Iodice, M. (INFN Sezione di Roma Tre) ; Ionescu, G. (LAPP. Université de Savoie. CNRS/IN2P3) ; Irles Quiles, A. (Institut de Microelectrònica de Barcelona) ; Ishii, K. (KEK. High Energy Accelerator Research Organization) ; Ishikawa, A. (Kobe University. Graduate School of Science) ; Ishino, M. (KEK. High Energy Accelerator Research Organization) ; Ishmukhametov, R. (Southern Methodist University. Physics Department) ; Isobe, T. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Issever, C. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Istin, S. (Bogazici University. Faculty of Sciences. Department of Physics) ; Itoh, Y. (Nagoya University. Graduate School of Science) ; Ivashin, A. V. (State Research Center Institute for High Energy Physics) ; Iwanski, W. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Iwasaki, H. (KEK. High Energy Accelerator Research Organization) ; Izen, J. M. (University of Texas at Dallas) ; Izzo, V. (INFN Sezione di Napoli) ; Jackson, B. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Jackson, J. N. (University of Liverpool. Oliver Lodge Laboratory) ; Jackson, P. (SLAC National Accelerator Laboratory) ; Jaekel, M. R. (CERN) ; Jahoda, M. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Jain, V. (Indiana University. Department of Physics) ; Jakobs, K. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Jakobsen, S. (University of Copenhagen. Niels Bohr Institute) ; Jakubek, J. (Czech Technical University in Prague) ; Jana, D. K. (University of Oklahoma. Homer L. Dodge Department of Physics and Astronomy) ; Jankowski, E. (University of Toronto. Department of Physics) ; Jansen, E. (University College London. Department of Physics and Astronomy) ; Jantsch, A. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Janus, M. (University of Bonn. Physikalisches Institut) ; Jared, R. C. (University of Wisconsin. Department of Physics) ; Jarlskog, G. (Fysiska institutionen. Lunds Universitet) ; Jeanty, L. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Jelen, K. (Faculty of Physics and Applied Computer Science. AGH-University of Science and Technology) ; Jen-La Plante, I. (University of Chicago. Enrico Fermi Institute) ; Jenni, P. (CERN) ; Jeremie, A. (LAPP. Université de Savoie. CNRS/IN2P3) ; Jež, P. (University of Copenhagen. Niels Bohr Institute) ; Jézéquel, S. (LAPP. Université de Savoie. CNRS/IN2P3) ; Ji, H. (University of Wisconsin. Department of Physics) ; Ji, W. (Fysiska institutionen. Lunds Universitet) ; Jia, J. (Stony Brook University. Department of Physics and Astronomy) ; Jiang, Y. (University of Science and Technology of China (USTC). Department of Modern Physics) ; Jimenez Belenguer, M. (CERN) ; Jin, G. (University of Science and Technology of China (USTC). Department of Modern Physics) ; Jin, S. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Jinnouchi, O. (Tokyo Institute of Technology) ; Joergensen, M. D. (University of Copenhagen. Niels Bohr Institute) ; Joffe, D. (Southern Methodist University. Physics Department) ; Johansen, L. G. (University of Bergen. Department for Physics and Technology) ; Johansen, M. (Oskar Klein Centre. AlbaNova) ; Johansson, K. E. (Stockholm University. Department of Physics) ; Johansson, P. (University of Sheffield. Department of Physics and Astronomy) ; Johnert, S. (DESY) ; Johns, K. A. (University of Arizona. Department of Physics) ; Jon-And, K. (Oskar Klein Centre. AlbaNova) ; Jones, G. (University of Manchester. School of Physics and Astronomy) ; Jones, M. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Jones, R. W. L. (Lancaster University. Physics Department) ; Jones, T. W. (University College London. Department of Physics and Astronomy) ; Jones, T. J. (University of Liverpool. Oliver Lodge Laboratory) ; Jonsson, O. (CERN) ; Joo, K. K. (Chonnam National University) ; Joos, D. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Joram, C. (CERN) ; Jorge, P. M. (Faculdade de Ciencias. Universidade de Lisboa) ; Jorgensen, S. (Institut de Física d'Altes Energies) ; Joseph, J. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Juranek, V. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Jussel, P. (Institut für Astro- und Teilchenphysik) ; Kabachenko, V. V. (State Research Center Institute for High Energy Physics) ; Kabana, S. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Kaci, M. (Institut de Microelectrònica de Barcelona) ; Kaczmarska, A. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Kadlecik, P. (University of Copenhagen. Niels Bohr Institute) ; Kado, M. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Kagan, H. (Ohio State University) ; Kagan, M. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Kaiser, S. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Kajomovitz, E. (Technion. Israel Inst. of Technology. Department of Physics) ; Kalinin, S. (Bergische Universität. Fachbereich C. Physik) ; Kalinovskaya, L. V. (Joint Institute for Nuclear Research. JINR Dubna) ; Kama, S. (Southern Methodist University. Physics Department) ; Kanaya, N. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Kaneda, M. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Kantserov, V. A. (Moscow Engineering and Physics Institute (MEPhI)) ; Kanzaki, J. (KEK. High Energy Accelerator Research Organization) ; Kaplan, B. (Yale University. Department of Physics) ; Kapliy, A. (University of Chicago. Enrico Fermi Institute) ; Kaplon, J. (CERN) ; Kar, D. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Karagounis, M. (University of Bonn. Physikalisches Institut) ; Karagoz, M. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Karnevskiy, M. (DESY) ; Karr, K. (Argonne National Laboratory. High Energy Physics Division) ; Kartvelishvili, V. (Lancaster University. Physics Department) ; Karyukhin, A. N. (State Research Center Institute for High Energy Physics) ; Kashif, L. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Kasmi, A. (Southern Methodist University. Physics Department) ; Kass, R. D. (Ohio State University) ; Kastanas, A. (University of Bergen. Department for Physics and Technology) ; Kataoka, M. (LAPP. Université de Savoie. CNRS/IN2P3) ; Kataoka, Y. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Katsoufis, E. (National Technical University of Athens. Physics Department) ; Katzy, J. (DESY) ; Kaushik, V. (University of Arizona. Department of Physics) ; Kawagoe, K. (Kobe University. Graduate School of Science) ; Kawamoto, T. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Kawamura, G. (Universität Mainz. Institut für Physik) ; Kayl, M. S. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Kayumov, F. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Kazanin, V. A. (Budker Institute of Nuclear Physics) ; Kazarinov, M. Y. (Joint Institute for Nuclear Research. JINR Dubna) ; Kazi, S. I. (University of Melbourne. School of Physics) ; Keates, J. R. (University of Manchester. School of Physics and Astronomy) ; Keeler, R. (University of Victoria. Department of Physics and Astronomy) ; Keener, P. T. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Kehoe, R. (Southern Methodist University. Physics Department) ; Keil, M. (Georg-August-Universität. II. Physikalisches Institut) ; Kekelidze, G. D. (Joint Institute for Nuclear Research. JINR Dubna) ; Kelly, M. (University of Manchester. School of Physics and Astronomy) ; Kennedy, J. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Kenney, C. J. (SLAC National Accelerator Laboratory) ; Kenyon, M. (University of Glasgow. Department of Physics and Astronomy) ; Kepka, O. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Kerschen, N. (CERN) ; Kerševan, B. P. (Jožef Stefan Institute. University of Ljubljana. Department of Physics) ; Kersten, S. (Bergische Universität. Fachbereich C. Physik) ; Kessoku, K. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Ketterer, C. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Khakzad, M. (Carleton University. Department of Physics) ; Khalil-Zada, F. (Institute of Physics. Azerbaijan Academy of Sciences) ; Khandanyan, H. (University of Illinois. Department of Physics) ; Khanov, A. (Oklahoma State University. Department of Physics) ; Kharchenko, D. (Joint Institute for Nuclear Research. JINR Dubna) ; Khodinov, A. (Stony Brook University. Department of Physics and Astronomy) ; Kholodenko, A. G. (State Research Center Institute for High Energy Physics) ; Khomich, A. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Khoriauli, G. (University of Bonn. Physikalisches Institut) ; Khovanskiy, N. (Joint Institute for Nuclear Research. JINR Dubna) ; Khovanskiy, V. (Institute for Theoretical and Experimental Physics (ITEP)) ; Khramov, E. (Joint Institute for Nuclear Research. JINR Dubna) ; Khubua, J. (Tbilisi State University. HEP Institute) ; Kilvington, G. (Royal Holloway. University of London. Department of Physics) ; Kim, H. (University of Texas at Arlington. Department of Physics) ; Kim, M. S. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Kim, P. C. (SLAC National Accelerator Laboratory) ; Kim, S. H. (University of Tsukuba. Institute of Pure and Applied Sciences) ; Kimura, N. (Waseda University. WISE) ; Kind, O. (Humboldt University. Institute of Physics. Berlin) ; Kind, P. (Bergische Universität. Fachbereich C. Physik) ; King, B. T. (University of Liverpool. Oliver Lodge Laboratory) ; King, M. (Kobe University. Graduate School of Science) ; Kirk, J. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Kirsch, G. P. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Kirsch, L. E. (Brandeis University. Department of Physics) ; Kiryunin, A. E. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Kisielewska, D. (Faculty of Physics and Applied Computer Science. AGH-University of Science and Technology) ; Kisielewski, B. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Kittelmann, T. (University of Pittsburgh. Department of Physics and Astronomy) ; Kiver, A. M. (State Research Center Institute for High Energy Physics) ; Kiyamura, H. (Kobe University. Graduate School of Science) ; Kladiva, E. (Institute of Experimental Physics of the Slovak Academy of Sciences. Dept. of Subnuclear Physics) ; Klaiber-Lodewigs, J. (TU Dortmund. Experimentelle Physik IV) ; Klein, M. (University of Liverpool. Oliver Lodge Laboratory) ; Klein, U. (University of Liverpool. Oliver Lodge Laboratory) ; Kleinknecht, K. (Universität Mainz. Institut für Physik) ; Klemetti, M. (McGill University. High Energy Physics Group) ; Klier, A. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Klimentov, A. (Brookhaven National Laboratory. Physics Department) ; Klingenberg, R. (TU Dortmund. Experimentelle Physik IV) ; Klinkby, E. B. (Duke University. Department of Physics) ; Klioutchnikova, T. (CERN) ; Klok, P. F. (Radboud University Nijmegen/NIKHEF. Department of Experimental High Energy Physics) ; Klous, S. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Kluge, E. E. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Kluge, T. (University of Liverpool. Oliver Lodge Laboratory) ; Kluit, P. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Kluth, S. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Knecht, N. S. (University of Toronto. Department of Physics) ; Kneringer, E. (Institut für Astro- und Teilchenphysik) ; Knobloch, J. (CERN) ; Ko, B. R. (Duke University. Department of Physics) ; Kobayashi, T. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Kobel, M. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Koblitz, B. (CERN) ; Kocian, M. (SLAC National Accelerator Laboratory) ; Kocnar, A. (Palacký University) ; Kodys, P. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Köneke, K. (CERN) ; König, A. C. (Radboud University Nijmegen/NIKHEF. Department of Experimental High Energy Physics) ; Koenig, S. (Universität Mainz. Institut für Physik) ; König, S. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Köpke, L. (Universität Mainz. Institut für Physik) ; Koetsveld, F. (Radboud University Nijmegen/NIKHEF. Department of Experimental High Energy Physics) ; Koevesarki, P. (University of Bonn. Physikalisches Institut) ; Koffas, T. (CERN) ; Koffeman, E. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Kohn, F. (Georg-August-Universität. II. Physikalisches Institut) ; Kohout, Z. (Czech Technical University in Prague) ; Kohriki, T. (KEK. High Energy Accelerator Research Organization) ; Koi, T. (SLAC National Accelerator Laboratory) ; Kokott, T. (University of Bonn. Physikalisches Institut) ; Kolachev, G. M. (Budker Institute of Nuclear Physics) ; Kolanoski, H. (Humboldt University. Institute of Physics. Berlin) ; Kolesnikov, V. (Joint Institute for Nuclear Research. JINR Dubna) ; Koletsou, I. (LAPP. Université de Savoie. CNRS/IN2P3) ; Koll, J. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Kollar, D. (CERN) ; Kollefrath, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Kolos, S. (University of California. Department of Physics and Astronomy) ; Kolya, S. D. (University of Manchester. School of Physics and Astronomy) ; Komar, A. A. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Komaragiri, J. R. (Simon Fraser University. Department of Physics) ; Kondo, T. (KEK. High Energy Accelerator Research Organization) ; Kono, T. (Institut für Experimentalphysik. Universität Hamburg) ; Kononov, A. I. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Konoplich, R. (New York University. Department of Physics) ; Konovalov, S. P. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Konstantinidis, N. (University College London. Department of Physics and Astronomy) ; Kootz, A. (Bergische Universität. Fachbereich C. Physik) ; Koperny, S. (Faculty of Physics and Applied Computer Science. AGH-University of Science and Technology) ; Kopikov, S. V. (State Research Center Institute for High Energy Physics) ; Korcyl, K. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Kordas, K. (Aristotle University of Thessaloniki. Faculty of Science. Department of Physics) ; Koreshev, V. (State Research Center Institute for High Energy Physics) ; Korn, A. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Korol, A. (Budker Institute of Nuclear Physics) ; Korolkov, I. (Institut de Física d'Altes Energies) ; Korolkova, E. V. (University of Sheffield. Department of Physics and Astronomy) ; Korotkov, V. A. (State Research Center Institute for High Energy Physics) ; Kortner, O. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Kortner, S. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Kostyukhin, V. V. (University of Bonn. Physikalisches Institut) ; Kotamäki, M. J. (CERN) ; Kotov, S. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Kotov, V. M. (Joint Institute for Nuclear Research. JINR Dubna) ; Kotov, K. Y. (Budker Institute of Nuclear Physics) ; Kourkoumelis, C. (University of Athens. Nuclear and Particle Physics. Department of Physics) ; Koutsman, A. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Kowalewski, R. (University of Victoria. Department of Physics and Astronomy) ; Kowalski, H. (DESY) ; Kowalski, T. Z. (Faculty of Physics and Applied Computer Science. AGH-University of Science and Technology) ; Kozanecki, W. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Kozhin, A. S. (State Research Center Institute for High Energy Physics) ; Kral, V. (Czech Technical University in Prague) ; Kramarenko, V. A. (Lomonosov Moscow State University. Skobeltsyn Institute of Nuclear Physics) ; Kramberger, G. (Jožef Stefan Institute. University of Ljubljana. Department of Physics) ; Krasel, O. (TU Dortmund. Experimentelle Physik IV) ; Krasny, M. W. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Krasznahorkay, A. (New York University. Department of Physics) ; Kraus, J. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Kreisel, A. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Krejci, F. (Czech Technical University in Prague) ; Kretzschmar, J. (University of Liverpool. Oliver Lodge Laboratory) ; Krieger, N. (Georg-August-Universität. II. Physikalisches Institut) ; Krieger, P. (University of Toronto. Department of Physics) ; Krobath, G. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Kroeninger, K. (Georg-August-Universität. II. Physikalisches Institut) ; Kroha, H. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Kroll, J. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Kroseberg, J. (University of Bonn. Physikalisches Institut) ; Krstic, J. (University of Belgrade. Institute of Physics) ; Kruchonak, U. (Joint Institute for Nuclear Research. JINR Dubna) ; Krüger, H. (University of Bonn. Physikalisches Institut) ; Krumshteyn, Z. V. (Joint Institute for Nuclear Research. JINR Dubna) ; Kruth, A. (University of Bonn. Physikalisches Institut) ; Kubota, T. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Kuehn, S. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Kugel, A. (ZITI Ruprecht-Karls-University Heidelberg) ; Kuhl, T. (Bergische Universität. Fachbereich C. Physik) ; Kuhn, D. (Institut für Astro- und Teilchenphysik) ; Kukhtin, V. (Joint Institute for Nuclear Research. JINR Dubna) ; Kulchitsky, Y. (B.I. Stepanov Institute of Physics. National Academy of Sciences of Belarus) ; Kuleshov, S. (Universidad Técnica Federico Santa María. Departamento de Física) ; Kummer, C. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Kuna, M. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Kundu, N. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Kunkle, J. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Kupco, A. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Kurashige, H. (Kobe University. Graduate School of Science) ; Kurata, M. (University of Tsukuba. Institute of Pure and Applied Sciences) ; Kurchaninov, L. L. (TRIUMF) ; Kurochkin, Y. A. (B.I. Stepanov Institute of Physics. National Academy of Sciences of Belarus) ; Kus, V. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Kuykendall, W. (University of Washington. Seattle. Department of Physics) ; Kuze, M. (Tokyo Institute of Technology) ; Kuzhir, P. (National Scientific and Educational Centre for Particle and High Energy Physics. NC PHEP BSU) ; Kvasnicka, O. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Kwee, R. (Humboldt University. Institute of Physics. Berlin) ; La Rosa, A. (CERN) ; La Rotonda, L. (Dipartimento di Fisica. Università della Calabria) ; Labarga, L. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Labbe, J. (LAPP. Université de Savoie. CNRS/IN2P3) ; Lacasta, C. (Institut de Microelectrònica de Barcelona) ; Lacava, F. (Università La Sapienza. Dipartimento di Fisica) ; Lacker, H. (Humboldt University. Institute of Physics. Berlin) ; Lacour, D. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Lacuesta, V. R. (Institut de Microelectrònica de Barcelona) ; Ladygin, E. (Joint Institute for Nuclear Research. JINR Dubna) ; Lafaye, R. (LAPP. Université de Savoie. CNRS/IN2P3) ; Laforge, B. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Lagouri, T. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Lai, S. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Lamanna, M. (CERN) ; Lambacher, M. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Lampen, C. L. (University of Arizona. Department of Physics) ; Lampl, W. (University of Arizona. Department of Physics) ; Lancon, E. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Landgraf, U. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Landon, M. P. J. (Queen Mary University of London. Department of Physics) ; Landsman, H. (Technion. Israel Inst. of Technology. Department of Physics) ; Lane, J. L. (University of Manchester. School of Physics and Astronomy) ; Lange, C. (DESY) ; Lankford, A. J. (University of California. Department of Physics and Astronomy) ; Lanni, F. (Brookhaven National Laboratory. Physics Department) ; Lantzsch, K. (CERN) ; Lanza, A. (INFN Sezione di Pavia) ; Lapin, V. V. (State Research Center Institute for High Energy Physics) ; Laplace, S. (LAPP. Université de Savoie. CNRS/IN2P3) ; Lapoire, C. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Laporte, J. F. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Lari, T. (INFN Sezione di Milano) ; Larionov, A. V. (State Research Center Institute for High Energy Physics) ; Larner, A. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Lasseur, C. (CERN) ; Lassnig, M. (CERN) ; Lau, W. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Laurelli, P. (INFN Laboratori Nazionali di Frascati) ; Lavorato, A. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Lavrijsen, W. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Laycock, P. (University of Liverpool. Oliver Lodge Laboratory) ; Lazarev, A. B. (Joint Institute for Nuclear Research. JINR Dubna) ; Lazzaro, A. (Università di Milano. Dipartimento di Fisica) ; Le Dortz, O. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Le Guirriec, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Le Maner, C. (University of Toronto. Department of Physics) ; Le Menedeu, E. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Le Vine, M. (Brookhaven National Laboratory. Physics Department) ; Leahu, M. (CERN) ; Lebedev, A. (Iowa State University. Department of Physics and Astronomy. Ames High Energy Physics Group) ; Lebel, C. (University of Montreal. Group of Particle Physics) ; Lechowski, M. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; LeCompte, T. (Argonne National Laboratory. High Energy Physics Division) ; Ledroit-Guillon, F. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Lee, H. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Lee, J. S. H. (University of Sydney. School of Physics) ; Lee, S. C. (Insitute of Physics. Academia Sinica) ; Lefebvre, M. (University of Victoria. Department of Physics and Astronomy) ; Legendre, M. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Leger, A. (Université de Genève. Section de Physique) ; LeGeyt, B. C. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Legger, F. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Leggett, C. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Lehmacher, M. (University of Bonn. Physikalisches Institut) ; Lehmann Miotto, G. (CERN) ; Lehto, M. (University of Sheffield. Department of Physics and Astronomy) ; Lei, X. (University of Arizona. Department of Physics) ; Leite, M. A. L. (Universidade de Sao Paulo. Instituto de Fisica) ; Leitner, R. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Lellouch, D. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Lellouch, J. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Leltchouk, M. (Columbia University. Nevis Laboratory) ; Lendermann, V. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Leney, K. J. C. (University of Liverpool. Oliver Lodge Laboratory) ; Lenz, T. (Bergische Universität. Fachbereich C. Physik) ; Lenzen, G. (Bergische Universität. Fachbereich C. Physik) ; Lenzi, B. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Leonhardt, K. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Lepidis, J. (Bergische Universität. Fachbereich C. Physik) ; Leroy, C. (University of Montreal. Group of Particle Physics) ; Lessard, J. R. (University of Victoria. Department of Physics and Astronomy) ; Lesser, J. (Stockholm University. Department of Physics) ; Lester, C. G. (University of Cambridge. Cavendish Laboratory) ; Leung Fook Cheong, A. (University of Wisconsin. Department of Physics) ; Levêque, J. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Levin, D. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Levinson, L. J. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Levitski, M. S. (State Research Center Institute for High Energy Physics) ; Lewandowska, M. (Boston University. Department of Physics) ; Leyton, M. (Humboldt University. Institute of Physics. Berlin) ; Li, B. (Shandong University. High Energy Physics Group) ; Li, H. (University of Wisconsin. Department of Physics) ; Li, X. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Liang, Z. (School of Physics and Engineering. Sun Yat-Sen University) ; Liberti, B. (INFN Sezione di Roma Tor Vergata) ; Lichard, P. (CERN) ; Lichtnecker, M. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Lie, K. (University of Illinois. Department of Physics) ; Liebig, W. (Julius-Maximilians-University of Würzburg. Physikalisches Institute) ; Lifshitz, R. (Technion. Israel Inst. of Technology. Department of Physics) ; Lilley, J. N. (University of Birmingham. School of Physics and Astronomy) ; Lim, H. (Argonne National Laboratory. High Energy Physics Division) ; Limosani, A. (University of Melbourne. School of Physics) ; Limper, M. (University of Iowa) ; Lin, S. C. (Insitute of Physics. Academia Sinica) ; Linde, F. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Linnemann, J. T. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Lipeles, E. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Lipinsky, L. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Lipniacka, A. (University of Bergen. Department for Physics and Technology) ; Liss, T. M. (University of Illinois. Department of Physics) ; Lissauer, D. (Brookhaven National Laboratory. Physics Department) ; Lister, A. (Université de Genève. Section de Physique) ; Litke, A. M. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Liu, C. (Carleton University. Department of Physics) ; Liu, D. (School of Physics. Shandong University) ; Liu, H. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Liu, J. B. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Liu, M. (University of Science and Technology of China (USTC). Department of Modern Physics) ; Liu, S. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Liu, T. (Southern Methodist University. Physics Department) ; Liu, Y. (University of Science and Technology of China (USTC). Department of Modern Physics) ; Livan, M. (Università di Pavia. Dipartimento di Fisica Nucleare e Teorica) ; Livermore, S. S. A. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Lleres, A. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Lloyd, S. L. (Queen Mary University of London. Department of Physics) ; Lobodzinska, E. (DESY) ; Loch, P. (University of Arizona. Department of Physics) ; Lockman, W. S. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Lockwitz, S. (Yale University. Department of Physics) ; Loddenkoetter, T. (University of Bonn. Physikalisches Institut) ; Loebinger, F. K. (University of Manchester. School of Physics and Astronomy) ; Loginov, A. (Yale University. Department of Physics) ; Loh, C. W. (University of British Columbia. Department of Physics) ; Lohse, T. (Humboldt University. Institute of Physics. Berlin) ; Lohwasser, K. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Lokajicek, M. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Loken, J. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Long, R. E. (Lancaster University. Physics Department) ; Lopes, L. (Faculdade de Ciencias. Universidade de Lisboa) ; Lopez Mateos, D. (California Institute of Technology (Estats Units d'Amèrica)) ; Losada, M. (Universidad Antonio Narino. Centro de Investigaciones) ; Loscutoff, P. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Losty, M. J. (TRIUMF) ; Lou, X. (University of Texas at Dallas) ; Lounis, A. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Loureiro, K. F. (Universidad Antonio Narino. Centro de Investigaciones) ; Lovas, L. (Comenius University. Faculty of Mathematics. Physics and Informatics) ; Love, J. (Boston University. Department of Physics) ; Love, P. A. (Lancaster University. Physics Department) ; Lowe, A. J. (SLAC National Accelerator Laboratory) ; Lu, F. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Lu, J. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Lu, L. (Southern Methodist University. Physics Department) ; Lubatti, H. J. (University of Washington. Seattle. Department of Physics) ; Luci, C. (Università La Sapienza. Dipartimento di Fisica) ; Lucotte, A. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Ludwig, A. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Ludwig, D. (DESY) ; Ludwig, I. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Ludwig, J. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Luehring, F. (Indiana University. Department of Physics) ; Luijckx, G. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Lumb, D. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Luminari, L. (INFN Sezione di Roma I) ; Lund, E. (University of Oslo. Department of Physics) ; Lund-Jensen, B. (Kungl. Tekniska högskolan (Estocolm (Suècia)) ; Lundberg, B. (Fysiska institutionen. Lunds Universitet) ; Lundberg, J. (CERN) ; Lundquist, J. (University of Copenhagen. Niels Bohr Institute) ; Lungwitz, M. (Universität Mainz. Institut für Physik) ; Lupi, A. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Lutz, G. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Lynn, D. (Brookhaven National Laboratory. Physics Department) ; Lynn, J. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Lys, J. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Lytken, E. (Fysiska institutionen. Lunds Universitet) ; Ma, H. (Brookhaven National Laboratory. Physics Department) ; Ma, L. L. (University of Wisconsin. Department of Physics) ; Maaßen, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Macana Goia, J. A. (University of Montreal. Group of Particle Physics) ; Maccarrone, G. (INFN Laboratori Nazionali di Frascati) ; Macchiolo, A. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Maček, B. (Jožef Stefan Institute. University of Ljubljana. Department of Physics) ; Machado Miguens, J. (Faculdade de Ciencias. Universidade de Lisboa) ; Macina, D. (Université de Genève. Section de Physique) ; Mackeprang, R. (University of Copenhagen. Niels Bohr Institute) ; MacQueen, D. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Madaras, R. J. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Mader, W. F. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Maenner, R. (ZITI Ruprecht-Karls-University Heidelberg) ; Maeno, T. (Brookhaven National Laboratory. Physics Department) ; Mättig, P. (Bergische Universität. Fachbereich C. Physik) ; Mättig, S. (DESY) ; Magalhaes Martins, P. J. (Department of Physics. University of Coimbra) ; Magnoni, L. (CERN) ; Magradze, E. (Tbilisi State University. HEP Institute) ; Magrath, C. A. (Radboud University Nijmegen/NIKHEF. Department of Experimental High Energy Physics) ; Mahalalel, Y. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Mahboubi, K. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Mahmood, A. (University at Albany) ; Mahout, G. (University of Birmingham. School of Physics and Astronomy) ; Maiani, C. (Università La Sapienza. Dipartimento di Fisica) ; Maidantchik, C. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Maio, A. (Faculdade de Ciencias. Universidade de Lisboa) ; Majewski, S. (Brookhaven National Laboratory. Physics Department) ; Makida, Y. (KEK. High Energy Accelerator Research Organization) ; Makouski, M. (State Research Center Institute for High Energy Physics) ; Makovec, N. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Mal, P. (University of Arizona. Department of Physics) ; Malecki, P. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Maleev, V. P. (Petersburg Nuclear Physics Institute) ; Malek, F. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Mallik, U. (University of Iowa) ; Malon, D. (Argonne National Laboratory. High Energy Physics Division) ; Maltezos, S. (National Technical University of Athens. Physics Department) ; Malyshev, V. (Budker Institute of Nuclear Physics) ; Malyukov, S. (Joint Institute for Nuclear Research. JINR Dubna) ; Mambelli, M. (University of Chicago. Enrico Fermi Institute) ; Mameghani, R. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Mamuzic, J. (Vinca Institute of Nuclear Sciences) ; Manabe, A. (KEK. High Energy Accelerator Research Organization) ; Manara, A. (Indiana University. Department of Physics) ; Mandelli, L. (INFN Sezione di Milano) ; Mandić, I. (Jožef Stefan Institute. University of Ljubljana. Department of Physics) ; Mandrysch, R. (Humboldt University. Institute of Physics. Berlin) ; Maneira, J. (Laboratório de Instrumentação e Física Experimental de Partículas - LIP) ; Mangeard, P. S. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Mangin-Brinet, M. (Université de Genève. Section de Physique) ; Manjavidze, I. D. (Joint Institute for Nuclear Research. JINR Dubna) ; Mann, A. (Georg-August-Universität. II. Physikalisches Institut) ; Mann, W. A. (Tufts University. Science and Technology Center) ; Manning, P. M. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Manousakis-Katsikakis, A. (University of Athens. Nuclear and Particle Physics. Department of Physics) ; Mansoulie, B. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Manz, A. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Mapelli, A. (CERN) ; Mapelli, L. (CERN) ; March, L. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Marchand, J. F. (CERN) ; Marchese, F. (Università di Roma Tor Vergata. Dipartimento di Fisica) ; Marchesotti, M. (CERN) ; Marchiori, G. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Marcisovsky, M. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Marin, A. (Boston University. Department of Physics) ; Marino, C. P. (Indiana University. Department of Physics) ; Marroquim, F. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Marshall, R. (University of Manchester. School of Physics and Astronomy) ; Marshall, Z. (California Institute of Technology (Estats Units d'Amèrica)) ; Martens, F. K. (University of Toronto. Department of Physics) ; Marti-Garcia, S. (Institut de Microelectrònica de Barcelona) ; Martin, A. J. (Yale University. Department of Physics) ; Martin, B. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Martin, F. F. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Martin, J. P. (University of Montreal. Group of Particle Physics) ; Martin, P. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Martin, T. A. (University of Birmingham. School of Physics and Astronomy) ; Martin Dit Latour, B. (Université de Genève. Section de Physique) ; Martinez, M. (Institut de Física d'Altes Energies) ; Martinez Outschoorn, V. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Martini, A. (INFN Laboratori Nazionali di Frascati) ; Martyniuk, A. C. (University of Manchester. School of Physics and Astronomy) ; Marzano, F. (INFN Sezione di Roma I) ; Marzin, A. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Masetti, L. (Universität Mainz. Institut für Physik) ; Mashimo, T. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Mashinistov, R. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Masik, J. (University of Manchester. School of Physics and Astronomy) ; Maslennikov, A. L. (Budker Institute of Nuclear Physics) ; Maß, M. (TU Dortmund. Experimentelle Physik IV) ; Massa, I. (Dipartimento di Fisica. Università di Bologna) ; Massaro, Giuseppina (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Massol, N. (LAPP. Université de Savoie. CNRS/IN2P3) ; Mastroberardino, A. (Dipartimento di Fisica. Università della Calabria) ; Masubuchi, T. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Mathes, M. (University of Bonn. Physikalisches Institut) ; Matricon, P. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Matsumoto, H. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Matsunaga, H. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Matsushita, T. (Kobe University. Graduate School of Science) ; Mattravers, C. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Maugain, J. M. (CERN) ; Maxfield, S. J. (University of Liverpool. Oliver Lodge Laboratory) ; May, E. N. (Argonne National Laboratory. High Energy Physics Division) ; Mayer, J. K. (University of Toronto. Department of Physics) ; Mayne, A. (University of Sheffield. Department of Physics and Astronomy) ; Mazini, R. (Insitute of Physics. Academia Sinica) ; Mazur, M. (University of Bonn. Physikalisches Institut) ; Mazzanti, M. (INFN Sezione di Milano) ; Mazzoni, E. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; McDonald, J. (McGill University. High Energy Physics Group) ; McKee, S. P. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; McCarn, A. (University of Illinois. Department of Physics) ; McCarthy, R. L. (Stony Brook University. Department of Physics and Astronomy) ; McCarthy, T. G. (Carleton University. Department of Physics) ; McCubbin, N. A. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; McFarlane, K. W. (Hampton University. Department of Physics) ; McGarvie, S. (Royal Holloway. University of London. Department of Physics) ; McGlone, H. (University of Glasgow. Department of Physics and Astronomy) ; Mchedlidze, G. (Tbilisi State University. HEP Institute) ; McLaren, R. A. (CERN) ; McMahon, S. J. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; McMahon, T. R. (Royal Holloway. University of London. Department of Physics) ; McMahon, T. J. (University of Birmingham. School of Physics and Astronomy) ; McPherson, R. A. (Institute of Particle Physics (IPP)) ; Meade, A. (University of Massachusetts. Department of Physics) ; Mechnich, J. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Mechtel, M. (Bergische Universität. Fachbereich C. Physik) ; Medinnis, M. (DESY) ; Meera-Lebbai, R. (University of Oklahoma. Homer L. Dodge Department of Physics and Astronomy) ; Meguro, T. (Osaka University. Graduate School of Science) ; Mehdiyev, R. (University of Montreal. Group of Particle Physics) ; Mehlhase, S. (DESY) ; Mehta, A. (University of Liverpool. Oliver Lodge Laboratory) ; Meier, K. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Meinhardt, J. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Meirose, B. (Fysiska institutionen. Lunds Universitet) ; Melachrinos, C. (University of Chicago. Enrico Fermi Institute) ; Mellado Garcia, B. R. (University of Wisconsin. Department of Physics) ; Mendoza Navas, L. (Universidad Antonio Narino. Centro de Investigaciones) ; Meng, Z. (School of Physics. Shandong University) ; Mengarelli, A. (Dipartimento di Fisica. Università di Bologna) ; Menke, S. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Menot, C. (CERN) ; Meoni, E. (Institut de Física d'Altes Energies) ; Merkl, D. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Mermod, P. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Merola, L. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Meroni, C. (INFN Sezione di Milano) ; Merritt, F. S. (University of Chicago. Enrico Fermi Institute) ; Messina, A. M. (CERN) ; Messmer, I. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Metcalfe, J. (University of New Mexico. Department of Physics and Astronomy) ; Mete, A. S. (Iowa State University. Department of Physics and Astronomy. Ames High Energy Physics Group) ; Meuser, S. (University of Bonn. Physikalisches Institut) ; Meyer, C. (Universität Mainz. Institut für Physik) ; Meyer, J. P. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Meyer, J. (Julius-Maximilians-University of Würzburg. Physikalisches Institute) ; Meyer, T. C. (CERN) ; Meyer, W. T. (Iowa State University. Department of Physics and Astronomy. Ames High Energy Physics Group) ; Miao, J. (Shandong University. High Energy Physics Group) ; Michal, S. (CERN) ; Micu, L. (National Institute of Physics and Nuclear Engineering) ; Middleton, R. P. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Miele, P. (CERN) ; Migas, S. (University of Liverpool. Oliver Lodge Laboratory) ; Migliaccio, A. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Mijović, L. (DESY) ; Mikenberg, G. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Mikestikova, M. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Mikulec, B. (Université de Genève. Section de Physique) ; Mikuž, M. (Jožef Stefan Institute. University of Ljubljana. Department of Physics) ; Miller, D. W. (SLAC National Accelerator Laboratory) ; Miller, R. J. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Mills, W. J. (University of British Columbia. Department of Physics) ; Mills, C. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Milov, A. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Milstead, D. A. (Oskar Klein Centre. AlbaNova) ; Milstein, D. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Mima, S. (Okayama University. Faculty of Science) ; Minaenko, A. A. (State Research Center Institute for High Energy Physics) ; Miñano, M. (Institut de Microelectrònica de Barcelona) ; Minashvili, I. A. (Joint Institute for Nuclear Research. JINR Dubna) ; Mincer, A. I. (New York University. Department of Physics) ; Mindur, B. (Faculty of Physics and Applied Computer Science. AGH-University of Science and Technology) ; Mineev, M. (Joint Institute for Nuclear Research. JINR Dubna) ; Ming, Y. (University of Regina. Physics Department) ; Mir, Lluïsa-Maria (Institut de Física d'Altes Energies) ; Mirabelli, G. (INFN Sezione di Roma I) ; Miralles Verge, L. (Institut de Física d'Altes Energies) ; Misawa, S. (Brookhaven National Laboratory. Physics Department) ; Miscetti, S. (INFN Laboratori Nazionali di Frascati) ; Misiejuk, A. (Royal Holloway. University of London. Department of Physics) ; Mitra, A. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Mitrevski, J. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Mitrofanov, G. Y. (State Research Center Institute for High Energy Physics) ; Mitsou, V. A. (Institut de Microelectrònica de Barcelona) ; Mitsui, S. (KEK. High Energy Accelerator Research Organization) ; Miyagawa, P. S. (University of Manchester. School of Physics and Astronomy) ; Miyazaki, K. (Kobe University. Graduate School of Science) ; Mjörnmark, J. U. (Fysiska institutionen. Lunds Universitet) ; Mladenov, D. (CERN) ; Moa, T. (Oskar Klein Centre. AlbaNova) ; Moch, M. (Università La Sapienza. Dipartimento di Fisica) ; Mockett, P. (University of Washington. Seattle. Department of Physics) ; Moed, S. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Moeller, V. (University of Cambridge. Cavendish Laboratory) ; Mönig, K. (DESY) ; Möser, N. (University of Bonn. Physikalisches Institut) ; Mohn, B. (University of Bergen. Department for Physics and Technology) ; Mohr, W. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Mohrdieck-Möck, S. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Moisseev, A. M. (State Research Center Institute for High Energy Physics) ; Moles-Valls, R. (Institut de Microelectrònica de Barcelona) ; Molina-Perez, J. (CERN) ; Moneta, L. (Université de Genève. Section de Physique) ; Monk, J. (University College London. Department of Physics and Astronomy) ; Monnier, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Montesano, S. (Università di Milano. Dipartimento di Fisica) ; Monticelli, F. (Universidad Nacional de La Plata. FCE. Departamento de Física. IFLP (CONICET-UNLP)) ; Moore, R. W. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Moorhead, G. F. (University of Melbourne. School of Physics) ; Mora Herrera, C. (Université de Genève. Section de Physique) ; Moraes, A. (University of Glasgow. Department of Physics and Astronomy) ; Morais, A. (Faculdade de Ciencias. Universidade de Lisboa) ; Morel, J. (Georg-August-Universität. II. Physikalisches Institut) ; Morello, G. (Dipartimento di Fisica. Università della Calabria) ; Moreno, D. (Universität Mainz. Institut für Physik) ; Moreno Llácer, M. (Institut de Microelectrònica de Barcelona) ; Morettini, P. (INFN Sezione di Genova) ; Morgan, D. (University of Sheffield. Department of Physics and Astronomy) ; Morii, M. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Morin, J. (Queen Mary University of London. Department of Physics) ; Morita, Y. (KEK. High Energy Accelerator Research Organization) ; Morley, A. K. (CERN) ; Mornacchi, G. (CERN) ; Morone, M. C. (Université de Genève. Section de Physique) ; Morozov, S. V. (Moscow Engineering and Physics Institute (MEPhI)) ; Morris, J. D. (Queen Mary University of London. Department of Physics) ; Moser, H. G. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Mosidze, M. (Tbilisi State University. HEP Institute) ; Moss, J. (Ohio State University) ; Moszczynski, A. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Mount, R. (SLAC National Accelerator Laboratory) ; Mountricha, E. (National Technical University of Athens. Physics Department) ; Mouraviev, S. V. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Moye, T. H. (University of Birmingham. School of Physics and Astronomy) ; Moyse, E. J. W. (University of Massachusetts. Department of Physics) ; Mudrinic, M. (Vinca Institute of Nuclear Sciences) ; Mueller, F. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Mueller, J. (University of Pittsburgh. Department of Physics and Astronomy) ; Mueller, K. (University of Bonn. Physikalisches Institut) ; Müller, T. A. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Muenstermann, D. (TU Dortmund. Experimentelle Physik IV) ; Muijs, A. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Muir, A. (University of British Columbia. Department of Physics) ; Munar, A. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Munwes, Y. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Murakami, K. (KEK. High Energy Accelerator Research Organization) ; Murillo Garcia, R. (University of California. Department of Physics and Astronomy) ; Murray, W. J. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Mussche, I. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Musto, E. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Myagkov, A. G. (State Research Center Institute for High Energy Physics) ; Myska, M. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Nadal, J. (Institut de Física d'Altes Energies) ; Nagai, K. (University of Tsukuba. Institute of Pure and Applied Sciences) ; Nagano, K. (KEK. High Energy Accelerator Research Organization) ; Nagasaka, Y. (Hiroshima Institute of Technology. Faculty of Applied Information Science) ; Nairz, A. M. (CERN) ; Naito, D. (Okayama University. Faculty of Science) ; Nakamura, K. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Nakano, I. (Okayama University. Faculty of Science) ; Nanava, G. (University of Bonn. Physikalisches Institut) ; Napier, A. (Tufts University. Science and Technology Center) ; Nash, M. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Nasteva, I. (University of Manchester. School of Physics and Astronomy) ; Nation, N. R. (Boston University. Department of Physics) ; Nattermann, T. (University of Bonn. Physikalisches Institut) ; Naumann, T. (DESY) ; Nauyock, F. (University of Manchester. School of Physics and Astronomy) ; Navarro, G. (Universidad Antonio Narino. Centro de Investigaciones) ; Nderitu, S. K. (McGill University. High Energy Physics Group) ; Neal, H. A. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Nebot, E. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Nechaeva, P. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Negri, A. (Università di Pavia. Dipartimento di Fisica Nucleare e Teorica) ; Negri, G. (CERN) ; Nelson, A. (Iowa State University. Department of Physics and Astronomy. Ames High Energy Physics Group) ; Nelson, S. (SLAC National Accelerator Laboratory) ; Nelson, T. K. (SLAC National Accelerator Laboratory) ; Nemecek, S. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Nemethy, P. (New York University. Department of Physics) ; Nepomuceno, A. A. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Nessi, M. (CERN) ; Nesterov, S. Y. (Petersburg Nuclear Physics Institute) ; Neubauer, M. S. (University of Illinois. Department of Physics) ; Neukermans, L. (LAPP. Université de Savoie. CNRS/IN2P3) ; Neusiedl, A. (Universität Mainz. Institut für Physik) ; Neves, R. M. (New York University. Department of Physics) ; Nevski, P. (Brookhaven National Laboratory. Physics Department) ; Newcomer, F. M. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Nicholson, C. (University of Glasgow. Department of Physics and Astronomy) ; Nickerson, R. B. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Nicolaidou, R. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Nicolas, L. (University of Sheffield. Department of Physics and Astronomy) ; Nicoletti, G. (INFN Laboratori Nazionali di Frascati) ; Nicquevert, B. (CERN) ; Niedercorn, F. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Nielsen, J. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Niinikoski, T. (CERN) ; Nikiforov, A. (Humboldt University. Institute of Physics. Berlin) ; Nikolaenko, V. (State Research Center Institute for High Energy Physics) ; Nikolaev, K. (Joint Institute for Nuclear Research. JINR Dubna) ; Nikolic-Audit, I. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Nikolopoulos, K. (Brookhaven National Laboratory. Physics Department) ; Nilsen, H. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Nilsson, P. (University of Texas at Arlington. Department of Physics) ; Ninomiya, Y. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Nisati, A. (INFN Sezione di Roma I) ; Nishiyama, T. (Kobe University. Graduate School of Science) ; Nisius, R. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Nodulman, L. (Argonne National Laboratory. High Energy Physics Division) ; Nomachi, M. (Osaka University. Graduate School of Science) ; Nomidis, I. (Aristotle University of Thessaloniki. Faculty of Science. Department of Physics) ; Nomoto, H. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Nordberg, M. (CERN) ; Nordkvist, B. (Oskar Klein Centre. AlbaNova) ; Norniella Francisco, O. (Institut de Física d'Altes Energies) ; Norton, P. R. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Notz, D. (DESY) ; Novakova, J. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Nozaki, M. (KEK. High Energy Accelerator Research Organization) ; Nožička, M. (DESY) ; Nugent, I. M. (TRIUMF) ; Nuncio-Quiroz, A. E. (University of Bonn. Physikalisches Institut) ; Nunes Hanninger, G. (University of Bonn. Physikalisches Institut) ; Nunnemann, T. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Nurse, E. (University College London. Department of Physics and Astronomy) ; Nyman, T. (CERN) ; O'Neale, S. W. (University of Birmingham. School of Physics and Astronomy) ; O'Neil, D. C. (Simon Fraser University. Department of Physics) ; O'Shea, V. (University of Glasgow. Department of Physics and Astronomy) ; Oakham, F. G. (TRIUMF) ; Oberlack, H. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Ocariz, J. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Ochi, A. (Kobe University. Graduate School of Science) ; Oda, S. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Odaka, S. (KEK. High Energy Accelerator Research Organization) ; Odier, J. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Odino, G. A. (Università di Genova. Dipartimento di Fisica) ; Ogren, H. (Indiana University. Department of Physics) ; Oh, A. (University of Manchester. School of Physics and Astronomy) ; Oh, S. H. (Duke University. Department of Physics) ; Ohm, C. C. (Oskar Klein Centre. AlbaNova) ; Ohshima, T. (Nagoya University. Graduate School of Science) ; Ohshita, H. (Shinshu University. Department of Physics. Faculty of Science) ; Ohska, T. K. (KEK. High Energy Accelerator Research Organization) ; Ohsugi, T. (Hiroshima University. Faculty of Science) ; Okada, S. (Kobe University. Graduate School of Science) ; Okawa, H. (University of California. Department of Physics and Astronomy) ; Okumura, Y. (Nagoya University. Graduate School of Science) ; Okuyama, T. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Olcese, M. (INFN Sezione di Genova) ; Olchevski, A. G. (Joint Institute for Nuclear Research. JINR Dubna) ; Oliveira, M. (Department of Physics. University of Coimbra) ; Oliveira Damazio, D. (Brookhaven National Laboratory. Physics Department) ; Oliver, C. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Oliver, J. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Oliver Garcia, E. (Institut de Microelectrònica de Barcelona) ; Olivito, D. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Olszewski, A. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Olszowska, J. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Omachi, C. (Kobe University. Graduate School of Science) ; Onofre, A. (Departamento de Fisica. Universidade de Minho) ; Onyisi, P. U. E. (University of Chicago. Enrico Fermi Institute) ; Oram, C. J. (TRIUMF) ; Ordonez, G. (Radboud University Nijmegen/NIKHEF. Department of Experimental High Energy Physics) ; Oreglia, M. J. (University of Chicago. Enrico Fermi Institute) ; Orellana, F. (Université de Genève. Section de Physique) ; Oren, Y. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Orestano, D. (Università Roma Tre. Dipartimento di Fisica) ; Orlov, I. (Budker Institute of Nuclear Physics) ; Oropeza Barrera, C. (University of Glasgow. Department of Physics and Astronomy) ; Orr, R. S. (University of Toronto. Department of Physics) ; Ortega, E. O. (University of Regina. Physics Department) ; Osculati, B. (Università di Genova. Dipartimento di Fisica) ; Ospanov, R. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Osuna, C. (Institut de Física d'Altes Energies) ; Otero Y Garzon, G. (Universidad de Buenos Aires. FCEyN. Dto. Fisica) ; Ottersbach, J. P. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Ottewell, B. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Ouchrif, M. (Université Mohamed Premier. LPTPM. Faculté des Sciences) ; Ould-Saada, F. (University of Oslo. Department of Physics) ; Ouraou, A. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Ouyang, Q. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Owen, M. (University of Manchester. School of Physics and Astronomy) ; Owen, S. (University of Sheffield. Department of Physics and Astronomy) ; Oyarzun, A. (Universidad Técnica Federico Santa María. Departamento de Física) ; Øye, O. K. (University of Bergen. Department for Physics and Technology) ; Ozcan, V. E. (University College London. Department of Physics and Astronomy) ; Ozone, K. (KEK. High Energy Accelerator Research Organization) ; Ozturk, N. (University of Texas at Arlington. Department of Physics) ; Pacheco Pages, A. (Institut de Física d'Altes Energies) ; Padilla, Cristobal (Institut de Física d'Altes Energies) ; Paganis, E. (University of Sheffield. Department of Physics and Astronomy) ; Paige, F. (Brookhaven National Laboratory. Physics Department) ; Pajchel, K. (University of Oslo. Department of Physics) ; Palestini, S. (CERN) ; Palla, J. (CERN) ; Pallin, D. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Palma, A. (Faculdade de Ciencias. Universidade de Lisboa) ; Palmer, J. D. (University of Birmingham. School of Physics and Astronomy) ; Palmer, M. J. (University of Cambridge. Cavendish Laboratory) ; Pan, Y. B. (University of Wisconsin. Department of Physics) ; Panagiotopoulou, E. (National Technical University of Athens. Physics Department) ; Panes, B. (Pontificia Universidad Católica de Chile. Facultad de Fisica. Departamento de Fisica) ; Panikashvili, N. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Panin, V. N. (Budker Institute of Nuclear Physics) ; Panitkin, S. (Brookhaven National Laboratory. Physics Department) ; Pantea, D. (National Institute of Physics and Nuclear Engineering) ; Panuskova, M. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Paolone, V. (University of Pittsburgh. Department of Physics and Astronomy) ; Paoloni, A. (Università di Roma Tor Vergata. Dipartimento di Fisica) ; Papadopoulou, T. D. (National Technical University of Athens. Physics Department) ; Paramonov, A. (Argonne National Laboratory. High Energy Physics Division) ; Park, S. J. (Georg-August-Universität. II. Physikalisches Institut) ; Park, W. (University of South Carolina. Dept. of Physics and Astronomy) ; Parker, M. A. (University of Cambridge. Cavendish Laboratory) ; Parker, S. I. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Parodi, F. (Università di Genova. Dipartimento di Fisica) ; Parsons, J. A. (Columbia University. Nevis Laboratory) ; Parzefall, U. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Pasqualucci, E. (INFN Sezione di Roma I) ; Passeri, A. (INFN Sezione di Roma Tre) ; Pastore, F. (Università Roma Tre. Dipartimento di Fisica) ; Pásztor, G. (KFKI Research Institute for Particle and Nuclear Physics) ; Pataraia, S. (University of Wisconsin. Department of Physics) ; Patel, N. (University of Sydney. School of Physics) ; Pater, J. R. (University of Manchester. School of Physics and Astronomy) ; Patricelli, S. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Pauly, T. (CERN) ; Peak, L. S. (University of Sydney. School of Physics) ; Pecsy, M. (Comenius University. Faculty of Mathematics. Physics and Informatics) ; Pedraza Morales, M. I. (University of Wisconsin. Department of Physics) ; Peeters, S. J. M. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Peleganchuk, S. V. (Budker Institute of Nuclear Physics) ; Peng, H. (University of Wisconsin. Department of Physics) ; Pengo, R. (CERN) ; Penson, A. (Columbia University. Nevis Laboratory) ; Penwell, J. (Indiana University. Department of Physics) ; Perantoni, M. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Perez, Kerstin (California Institute of Technology (Estats Units d'Amèrica)) ; Perez Codina, E. (Institut de Física d'Altes Energies) ; Pérez García-Estañ, M. T. (Institut de Microelectrònica de Barcelona) ; Perez Reale, V. (Columbia University. Nevis Laboratory) ; Peric, I. (University of Bonn. Physikalisches Institut) ; Perini, L. (Università di Milano. Dipartimento di Fisica) ; Pernegger, H. (CERN) ; Perrino, R. (INFN Sezione di Lecce) ; Perrodo, P. (LAPP. Université de Savoie. CNRS/IN2P3) ; Persembe, S. (Ankara University. Faculty of Sciences. Department of Physics) ; Perus, P. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Peshekhonov, V. D. (Joint Institute for Nuclear Research. JINR Dubna) ; Petereit, E. (Argonne National Laboratory. High Energy Physics Division) ; Peters, O. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Petersen, B. A. (CERN) ; Petersen, J. (CERN) ; Petersen, T. C. (University of Copenhagen. Niels Bohr Institute) ; Petit, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Petridis, A. (Aristotle University of Thessaloniki. Faculty of Science. Department of Physics) ; Petridou, C. (Aristotle University of Thessaloniki. Faculty of Science. Department of Physics) ; Petrolo, E. (INFN Sezione di Roma I) ; Petrucci, F. (Università Roma Tre. Dipartimento di Fisica) ; Petschull, D. (DESY) ; Petteni, M. (Simon Fraser University. Department of Physics) ; Pezoa, R. (Universidad Técnica Federico Santa María. Departamento de Física) ; Pfeifer, B. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Phan, A. (University of Melbourne. School of Physics) ; Phillips, A. W. (University of Cambridge. Cavendish Laboratory) ; Phillips, P. W. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Piacquadio, G. (CERN) ; Piccaro, E. (Queen Mary University of London. Department of Physics) ; Piccinini, M. (Dipartimento di Fisica. Università di Bologna) ; Pickford, A. (University of Glasgow. Department of Physics and Astronomy) ; Piegaia, R. (Universidad de Buenos Aires. FCEyN. Dto. Fisica) ; Pilcher, J. E. (University of Chicago. Enrico Fermi Institute) ; Pilkington, A. D. (University of Manchester. School of Physics and Astronomy) ; Pina, J. (Faculdade de Ciencias. Universidade de Lisboa) ; Pinamonti, M. (Università di Udine. Dipartimento di Fisica) ; Pinfold, J. L. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Ping, J. (Nanjing University. Department of Physics) ; Pinto, B. (Faculdade de Ciencias. Universidade de Lisboa) ; Pirotte, O. (CERN) ; Pizio, C. (Università di Milano. Dipartimento di Fisica) ; Placakyte, R. (DESY) ; Plamondon, M. (University of Victoria. Department of Physics and Astronomy) ; Plano, W. G. (University of Manchester. School of Physics and Astronomy) ; Pleier, M. A. (Brookhaven National Laboratory. Physics Department) ; Pleskach, A. V. (State Research Center Institute for High Energy Physics) ; Poblaguev, A. (Yale University. Department of Physics) ; Poddar, S. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Podlyski, F. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Poffenberger, P. (University of Victoria. Department of Physics and Astronomy) ; Poggioli, L. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Poghosyan, T. (University of Bonn. Physikalisches Institut) ; Pohl, M. (Université de Genève. Section de Physique) ; Polci, F. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Polesello, G. (INFN Sezione di Pavia) ; Policicchio, A. (University of Washington. Seattle. Department of Physics) ; Polini, A. (INFN Sezione di Bologna) ; Poll, J. (Queen Mary University of London. Department of Physics) ; Polychronakos, V. (Brookhaven National Laboratory. Physics Department) ; Pomarede, D. M. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Pomeroy, D. (Brandeis University. Department of Physics) ; Pommès, K. (CERN) ; Ponsot, P. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Pontecorvo, L. (INFN Sezione di Roma I) ; Pope, B. G. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Popeneciu, G. A. (National Institute of Physics and Nuclear Engineering) ; Popescu, R. (Brookhaven National Laboratory. Physics Department) ; Popovic, D. S. (University of Belgrade. Institute of Physics) ; Poppleton, A. (CERN) ; Popule, J. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Portell Bueso, X. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Porter, R. (University of California. Department of Physics and Astronomy) ; Posch, C. (Boston University. Department of Physics) ; Pospelov, G. E. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Pospisil, S. (Czech Technical University in Prague) ; Potekhin, M. (Brookhaven National Laboratory. Physics Department) ; Potrap, I. N. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Potter, C. J. (University of Sussex. Department of Physics and Astronomy) ; Potter, C. T. (McGill University. High Energy Physics Group) ; Potter, K. P. (University of Manchester. School of Physics and Astronomy) ; Poulard, G. (CERN) ; Poveda, J. (University of Wisconsin. Department of Physics) ; Prabhu, R. (University College London. Department of Physics and Astronomy) ; Pralavorio, P. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Prasad, S. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Prata, M. (Università di Pavia. Dipartimento di Fisica Nucleare e Teorica) ; Pravahan, R. (University of Texas at Arlington. Department of Physics) ; Prell, S. (Iowa State University. Department of Physics and Astronomy. Ames High Energy Physics Group) ; Pretzl, K. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Pribyl, L. (CERN) ; Price, D. (Indiana University. Department of Physics) ; Price, L. E. (Argonne National Laboratory. High Energy Physics Division) ; Price, M. J. (CERN) ; Prichard, P. M. (University of Liverpool. Oliver Lodge Laboratory) ; Prieur, D. (University of Pittsburgh. Department of Physics and Astronomy) ; Primavera, M. (INFN Sezione di Lecce) ; Prokofiev, K. (CERN) ; Prokoshin, F. (Universidad Técnica Federico Santa María. Departamento de Física) ; Protopopescu, S. (Brookhaven National Laboratory. Physics Department) ; Proudfoot, J. (Argonne National Laboratory. High Energy Physics Division) ; Prudent, X. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Przysiezniak, H. (LAPP. Université de Savoie. CNRS/IN2P3) ; Psoroulas, S. (University of Bonn. Physikalisches Institut) ; Ptacek, E. (University of Oregon. Center for High Energy Physics) ; Puigdengoles, Carles (Institut de Física d'Altes Energies) ; Purdham, J. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Purohit, M. (University of South Carolina. Dept. of Physics and Astronomy) ; Puzo, P. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Pylypchenko, Y. (University of Oslo. Department of Physics) ; Qi, M. (Nanjing University. Department of Physics) ; Qian, J. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Qian, W. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Qian, Z. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Qin, Z. (DESY) ; Qing, D. (TRIUMF) ; Quadt, A. (Georg-August-Universität. II. Physikalisches Institut) ; Quarrie, D. R. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Quayle, W. B. (University of Wisconsin. Department of Physics) ; Quinonez, F. (Pontificia Universidad Católica de Chile. Facultad de Fisica. Departamento de Fisica) ; Raas, M. (Radboud University Nijmegen/NIKHEF. Department of Experimental High Energy Physics) ; Radeka, V. (Brookhaven National Laboratory. Physics Department) ; Radescu, V. (Physikalisches Institut) ; Radics, B. (University of Bonn. Physikalisches Institut) ; Rador, T. (Bogazici University. Faculty of Sciences. Department of Physics) ; Ragusa, F. (Università di Milano. Dipartimento di Fisica) ; Rahal, G. (Centre de Calcul. CNRS/IN2P3. Domaine scientifique de la Doua) ; Rahimi, A. M. (Ohio State University) ; Rahm, D. (Brookhaven National Laboratory. Physics Department) ; Raine, C. (University of Glasgow. Department of Physics and Astronomy) ; Raith, B. (University of Bonn. Physikalisches Institut) ; Rajagopalan, S. (Brookhaven National Laboratory. Physics Department) ; Rajek, S. (TU Dortmund. Experimentelle Physik IV) ; Rammensee, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Rammes, M. (Universität Siegen. Fachbereich Physik) ; Ramstedt, M. (Oskar Klein Centre. AlbaNova) ; Ratoff, P. N. (Lancaster University. Physics Department) ; Rauscher, F. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Rauter, E. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Raymond, M. (CERN) ; Read, A. L. (University of Oslo. Department of Physics) ; Rebuzzi, D. M. (Università di Pavia. Dipartimento di Fisica Nucleare e Teorica) ; Redelbach, A. (Julius-Maximilians-University of Würzburg. Physikalisches Institute) ; Redlinger, G. (Brookhaven National Laboratory. Physics Department) ; Reece, R. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Reeves, K. (University of Texas at Dallas) ; Reichold, A. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Reinherz-Aronis, E. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Reinsch, A. (University of Oregon. Center for High Energy Physics) ; Reisinger, I. (TU Dortmund. Experimentelle Physik IV) ; Reljic, D. (University of Belgrade. Institute of Physics) ; Rembser, C. (CERN) ; Ren, Z. L. (Insitute of Physics. Academia Sinica) ; Renkel, P. (Southern Methodist University. Physics Department) ; Rensch, B. (University of Copenhagen. Niels Bohr Institute) ; Rescia, S. (Brookhaven National Laboratory. Physics Department) ; Rescigno, M. (INFN Sezione di Roma I) ; Resconi, S. (INFN Sezione di Milano) ; Resende, B. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Reznicek, P. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Rezvani, R. (University of Toronto. Department of Physics) ; Richards, A. (University College London. Department of Physics and Astronomy) ; Richards, R. A. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Richter, R. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Richter-Was, E. (Institute of Physics. Jagiellonian University) ; Ridel, M. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Rieke, S. (Universität Mainz. Institut für Physik) ; Rijpstra, M. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Rijssenbeek, M. (Stony Brook University. Department of Physics and Astronomy) ; Rimoldi, A. (Università di Pavia. Dipartimento di Fisica Nucleare e Teorica) ; Rinaldi, L. (INFN Sezione di Bologna) ; Rios, R. R. (Southern Methodist University. Physics Department) ; Riu, I. (Institut de Física d'Altes Energies) ; Rivoltella, G. (Università di Milano. Dipartimento di Fisica) ; Rizatdinova, F. (Oklahoma State University. Department of Physics) ; Rizvi, E. (Queen Mary University of London. Department of Physics) ; Roa Romero, D. A. (Universidad Antonio Narino. Centro de Investigaciones) ; Robertson, S. H. (Institute of Particle Physics (IPP)) ; Robichaud-Veronneau, A. (Université de Genève. Section de Physique) ; Robinson, D. (University of Cambridge. Cavendish Laboratory) ; Robinson, J. E. M. (University College London. Department of Physics and Astronomy) ; Robinson, M. (University of Oregon. Center for High Energy Physics) ; Robson, A. (University of Glasgow. Department of Physics and Astronomy) ; Rocha De Lima, J. G. (Department of Physics. Northern Illinois University) ; Roda, C. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Roda Dos Santos, D. (CERN) ; Rodier, S. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Rodriguez, D. (Universidad Antonio Narino. Centro de Investigaciones) ; Rodriguez Garcia, Y. (Humboldt University. Institute of Physics. Berlin) ; Roe, A. (Georg-August-Universität. II. Physikalisches Institut) ; Roe, S. (CERN) ; Røhne, O. (University of Oslo. Department of Physics) ; Rojo, V. (University at Albany) ; Rolli, S. (Tufts University. Science and Technology Center) ; Romaniouk, A. (Moscow Engineering and Physics Institute (MEPhI)) ; Romanov, V. M. (Joint Institute for Nuclear Research. JINR Dubna) ; Romeo, G. (Universidad de Buenos Aires. FCEyN. Dto. Fisica) ; Romero Maltrana, D. (Pontificia Universidad Católica de Chile. Facultad de Fisica. Departamento de Fisica) ; Roos, L. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Ros, E. (Institut de Microelectrònica de Barcelona) ; Rosati, S. (University of Washington. Seattle. Department of Physics) ; Rosenbaum, G. A. (University of Toronto. Department of Physics) ; Rosenberg, E. I. (Iowa State University. Department of Physics and Astronomy. Ames High Energy Physics Group) ; Rosendahl, P. L. (University of Bergen. Department for Physics and Technology) ; Rosselet, L. (Université de Genève. Section de Physique) ; Rossetti, V. (Institut de Física d'Altes Energies) ; Rossi, E. (Università di Napoli. Dipartimento di Scienze Fisiche. Complesso Universitario di Monte Sant'Angelo) ; Rossi, L. P. (INFN Sezione di Genova) ; Rossi, L. (Università di Milano. Dipartimento di Fisica) ; Rotaru, M. (National Institute of Physics and Nuclear Engineering) ; Rothberg, J. (University of Washington. Seattle. Department of Physics) ; Rottländer, I. (University of Bonn. Physikalisches Institut) ; Rousseau, D. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Royon, C. R. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Rozanov, A. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Rozen, Y. (Technion. Israel Inst. of Technology. Department of Physics) ; Ruan, X. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Ruckert, B. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Ruckstuhl, N. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Rud, V. I. (Lomonosov Moscow State University. Skobeltsyn Institute of Nuclear Physics) ; Rudolph, G. (Institut für Astro- und Teilchenphysik) ; Rühr, F. (University of Arizona. Department of Physics) ; Ruggieri, F. (INFN Sezione di Roma Tre) ; Ruiz-Martinez, A. (Iowa State University. Department of Physics and Astronomy. Ames High Energy Physics Group) ; Rulikowska-Zarebska, E. (Faculty of Physics and Applied Computer Science. AGH-University of Science and Technology) ; Rumiantsev, V. (National Scientific and Educational Centre for Particle and High Energy Physics. NC PHEP BSU) ; Rumyantsev, L. (Joint Institute for Nuclear Research. JINR Dubna) ; Runge, K. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Runolfsson, O. (University of Bonn. Physikalisches Institut) ; Rurikova, Z. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Rusakovich, N. A. (Joint Institute for Nuclear Research. JINR Dubna) ; Rust, D. R. (Indiana University. Department of Physics) ; Rutherfoord, J. P. (University of Arizona. Department of Physics) ; Ruwiedel, C. (University of Bonn. Physikalisches Institut) ; Ruzicka, P. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Ryabov, Y. F. (Petersburg Nuclear Physics Institute) ; Ryadovikov, V. (State Research Center Institute for High Energy Physics) ; Ryan, P. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Rybkin, G. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Rzaeva, S. (Institute of Physics. Azerbaijan Academy of Sciences) ; Saavedra, A. F. (University of Sydney. School of Physics) ; Sadeh, I. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Sadrozinski, H. F. W. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Sadykov, R. (Joint Institute for Nuclear Research. JINR Dubna) ; Safai Tehrani, F. (Università La Sapienza. Dipartimento di Fisica) ; Sakamoto, H. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Sala, P. (INFN Sezione di Milano) ; Salamanna, G. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Salamon, A. (INFN Sezione di Roma Tor Vergata) ; Saleem, M. (University of Oklahoma. Homer L. Dodge Department of Physics and Astronomy) ; Salihagic, D. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Salnikov, A. (SLAC National Accelerator Laboratory) ; Salt, J. (Institut de Microelectrònica de Barcelona) ; Salvachua Ferrando, B. M. (Argonne National Laboratory. High Energy Physics Division) ; Salvatore, D. (Dipartimento di Fisica. Università della Calabria) ; Salvatore, F. (University of Sussex. Department of Physics and Astronomy) ; Salvucci, A. (INFN Laboratori Nazionali di Frascati) ; Salzburger, A. (CERN) ; Sampsonidis, D. (Aristotle University of Thessaloniki. Faculty of Science. Department of Physics) ; Samset, B. H. (University of Oslo. Department of Physics) ; Sandaker, H. (University of Bergen. Department for Physics and Technology) ; Sander, H. G. (Universität Mainz. Institut für Physik) ; Sanders, M. P. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Sandhoff, M. (Bergische Universität. Fachbereich C. Physik) ; Sandhu, P. (University of Toronto. Department of Physics) ; Sandoval, T. (University of Cambridge. Cavendish Laboratory) ; Sandstroem, R. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Sandvoss, S. (Bergische Universität. Fachbereich C. Physik) ; Sankey, D. P. C. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Sanny, B. (Bergische Universität. Fachbereich C. Physik) ; Sansoni, A. (INFN Laboratori Nazionali di Frascati) ; Santamarina Rios, C. (McGill University. High Energy Physics Group) ; Santoni, C. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Santonico, R. (Università di Roma Tor Vergata. Dipartimento di Fisica) ; Santos, H. (Laboratório de Instrumentação e Física Experimental de Partículas - LIP) ; Saraiva, J. G. (Faculdade de Ciencias. Universidade de Lisboa) ; Sarangi, T. (University of Wisconsin. Department of Physics) ; Sarkisyan-Grinbaum, E. (University of Texas at Arlington. Department of Physics) ; Sarri, F. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Sartisohn, G. (Bergische Universität. Fachbereich C. Physik) ; Sasaki, O. (KEK. High Energy Accelerator Research Organization) ; Sasaki, T. (KEK. High Energy Accelerator Research Organization) ; Sasao, N. (Kyoto University. Faculty of Science) ; Satsounkevitch, I. (B.I. Stepanov Institute of Physics. National Academy of Sciences of Belarus) ; Sauvage, G. (LAPP. Université de Savoie. CNRS/IN2P3) ; Savard, P. (TRIUMF) ; Savine, A. Y. (University of Arizona. Department of Physics) ; Savinov, V. (University of Pittsburgh. Department of Physics and Astronomy) ; Savva, P. (National Technical University of Athens. Physics Department) ; Sawyer, L. (Louisiana Tech. University) ; Saxon, D. H. (University of Glasgow. Department of Physics and Astronomy) ; Says, L. P. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Sbarra, C. (Dipartimento di Fisica. Università di Bologna) ; Sbrizzi, A. (Dipartimento di Fisica. Università di Bologna) ; Scallon, O. (University of Montreal. Group of Particle Physics) ; Scannicchio, D. A. (University of California. Department of Physics and Astronomy) ; Schaarschmidt, J. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Schacht, P. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Schäfer, U. (Universität Mainz. Institut für Physik) ; Schaetzel, S. (Physikalisches Institut) ; Schaffer, A. C. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Schaile, D. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Schaller, M. (CERN) ; Schamberger, R. D. (Stony Brook University. Department of Physics and Astronomy) ; Schamov, A. G. (Budker Institute of Nuclear Physics) ; Scharf, V. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Schegelsky, V. A. (Petersburg Nuclear Physics Institute) ; Scheirich, D. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Schernau, M. (University of California. Department of Physics and Astronomy) ; Scherzer, M. I. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Schiavi, C. (Università di Genova. Dipartimento di Fisica) ; Schieck, J. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Schioppa, M. (Dipartimento di Fisica. Università della Calabria) ; Schlenker, S. (CERN) ; Schlereth, J. L. (Argonne National Laboratory. High Energy Physics Division) ; Schmidt, E. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Schmidt, M. P. (Yale University. Department of Physics) ; Schmieden, K. (University of Bonn. Physikalisches Institut) ; Schmitt, C. (Universität Mainz. Institut für Physik) ; Schmitz, M. (University of Bonn. Physikalisches Institut) ; Scholte, R. C. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Schöning, A. (Physikalisches Institut) ; Schott, M. (CERN) ; Schouten, D. (Simon Fraser University. Department of Physics) ; Schovancova, J. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Schram, M. (McGill University. High Energy Physics Group) ; Schreiner, A. (University of Iowa) ; Schroeder, C. (Universität Mainz. Institut für Physik) ; Schroer, N. (ZITI Ruprecht-Karls-University Heidelberg) ; Schroers, M. (Bergische Universität. Fachbereich C. Physik) ; Schroff, D. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Schuh, S. (CERN) ; Schuler, G. (CERN) ; Schultes, J. (Bergische Universität. Fachbereich C. Physik) ; Schultz-Coulon, H. C. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Schumacher, J. W. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Schumacher, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Schumm, B. A. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Schune, P. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Schwanenberger, C. (University of Manchester. School of Physics and Astronomy) ; Schwartzman, A. (SLAC National Accelerator Laboratory) ; Schweiger, D. (CERN) ; Schwemling, P. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Schwienhorst, R. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Schwierz, R. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Schwindling, J. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Scott, W. G. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Searcy, J. (University of Oregon. Center for High Energy Physics) ; Sedykh, E. (Petersburg Nuclear Physics Institute) ; Segura, E. (Institut de Física d'Altes Energies) ; Seidel, S. C. (University of New Mexico. Department of Physics and Astronomy) ; Seiden, A. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Seifert, F. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Seixas, J. M. (Universidade Federal do Rio De Janeiro. COPPE/EE/IF) ; Sekhniaidze, G. (INFN Sezione di Napoli) ; Seliverstov, D. M. (Petersburg Nuclear Physics Institute) ; Sellden, B. (Stockholm University. Department of Physics) ; Sellers, G. (University of Liverpool. Oliver Lodge Laboratory) ; Seman, M. (Institute of Experimental Physics of the Slovak Academy of Sciences. Dept. of Subnuclear Physics) ; Semprini-Cesari, N. (Dipartimento di Fisica. Università di Bologna) ; Serfon, C. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Serin, L. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Seuster, R. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Severini, H. (University of Oklahoma. Homer L. Dodge Department of Physics and Astronomy) ; Sevior, M. E. (University of Melbourne. School of Physics) ; Sfyrla, A. (CERN) ; Shabalina, E. (Georg-August-Universität. II. Physikalisches Institut) ; Shamim, M. (University of Oregon. Center for High Energy Physics) ; Shan, L. Y. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Shank, J. T. (Boston University. Department of Physics) ; Shao, Q. T. (University of Melbourne. School of Physics) ; Shapiro, M. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Shatalov, P. B. (Institute for Theoretical and Experimental Physics (ITEP)) ; Shaver, L. (University of Arizona. Department of Physics) ; Shaw, C. (University of Glasgow. Department of Physics and Astronomy) ; Shaw, K. (University of Sheffield. Department of Physics and Astronomy) ; Sherman, D. (CERN) ; Sherwood, P. (University College London. Department of Physics and Astronomy) ; Shibata, A. (New York University. Department of Physics) ; Shield, P. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Shimizu, S. (CERN) ; Shimojima, M. (Nagasaki Institute of Applied Science) ; Shin, T. (Hampton University. Department of Physics) ; Shmeleva, A. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Shochet, M. J. (University of Chicago. Enrico Fermi Institute) ; Shupe, M. A. (University of Arizona. Department of Physics) ; Sicho, P. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Sidoti, A. (Humboldt University. Institute of Physics. Berlin) ; Siebel, A. (Bergische Universität. Fachbereich C. Physik) ; Siegert, F. (University College London. Department of Physics and Astronomy) ; Siegrist, J. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Sijacki, D. (University of Belgrade. Institute of Physics) ; Silbert, O. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Silva, J. (Centro de Fisica Nuclear. Universidade de Lisboa) ; Silver, Y. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Silverstein, D. (SLAC National Accelerator Laboratory) ; Silverstein, S. B. (Stockholm University. Department of Physics) ; Simak, V. (Czech Technical University in Prague) ; Simic, L. (University of Belgrade. Institute of Physics) ; Simion, S. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Simmons, B. (University College London. Department of Physics and Astronomy) ; Simonyan, M. (University of Copenhagen. Niels Bohr Institute) ; Sinervo, P. (University of Toronto. Department of Physics) ; Sinev, N. B. (University of Oregon. Center for High Energy Physics) ; Sipica, V. (Universität Siegen. Fachbereich Physik) ; Siragusa, G. (Universität Mainz. Institut für Physik) ; Sisakyan, A. N. (Joint Institute for Nuclear Research. JINR Dubna) ; Sivoklokov, S. Y. (Lomonosov Moscow State University. Skobeltsyn Institute of Nuclear Physics) ; Sjölin, J. (Oskar Klein Centre. AlbaNova) ; Sjursen, T. B. (University of Bergen. Department for Physics and Technology) ; Skinnari, L. A. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Skovpen, K. (Budker Institute of Nuclear Physics) ; Skubic, P. (University of Oklahoma. Homer L. Dodge Department of Physics and Astronomy) ; Skvorodnev, N. (Brandeis University. Department of Physics) ; Slater, M. (University of Birmingham. School of Physics and Astronomy) ; Slavicek, T. (Czech Technical University in Prague) ; Sliwa, K. (Tufts University. Science and Technology Center) ; Sloan, T. J. (Lancaster University. Physics Department) ; Sloper, J. (CERN) ; Smakhtin, V. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Smirnov, S. Y. (Moscow Engineering and Physics Institute (MEPhI)) ; Smirnov, Y. (Brookhaven National Laboratory. Physics Department) ; Smirnova, L. N. (Lomonosov Moscow State University. Skobeltsyn Institute of Nuclear Physics) ; Smirnova, O. (Fysiska institutionen. Lunds Universitet) ; Smith, B. C. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Smith, D. (SLAC National Accelerator Laboratory) ; Smith, K. M. (University of Glasgow. Department of Physics and Astronomy) ; Smizanska, M. (Lancaster University. Physics Department) ; Smolek, K. (Czech Technical University in Prague) ; Snesarev, A. A. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Snow, S. W. (University of Manchester. School of Physics and Astronomy) ; Snow, J. (University of Oklahoma. Homer L. Dodge Department of Physics and Astronomy) ; Snuverink, J. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Snyder, S. (Brookhaven National Laboratory. Physics Department) ; Soares, M. (Laboratório de Instrumentação e Física Experimental de Partículas - LIP) ; Sobie, R. (Institute of Particle Physics (IPP)) ; Sodomka, J. (Czech Technical University in Prague) ; Soffer, A. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Solans, C. A. (Institut de Microelectrònica de Barcelona) ; Solar, M. (Czech Technical University in Prague) ; Solc, J. (Czech Technical University in Prague) ; Solfaroli Camillocci, E. (Università La Sapienza. Dipartimento di Fisica) ; Solodkov, A. A. (State Research Center Institute for High Energy Physics) ; Solovyanov, O. V. (State Research Center Institute for High Energy Physics) ; Soluk, R. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Sondericker, J. (Brookhaven National Laboratory. Physics Department) ; Soni, N. (University of Alberta. Department of Physics. Centre for Particle Physics) ; Sopko, V. (Czech Technical University in Prague) ; Sopko, B. (Czech Technical University in Prague) ; Sorbi, M. (Università di Milano. Dipartimento di Fisica) ; Sosebee, M. (University of Texas at Arlington. Department of Physics) ; Soukharev, A. (Budker Institute of Nuclear Physics) ; Spagnolo, S. (Università del Salento. Dipartimento di Fisica) ; Spanò, F. (Columbia University. Nevis Laboratory) ; Speckmayer, P. (CERN) ; Spencer, E. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Spighi, R. (INFN Sezione di Bologna) ; Spigo, G. (CERN) ; Spila, F. (Università La Sapienza. Dipartimento di Fisica) ; Spiriti, E. (INFN Sezione di Roma Tre) ; Spiwoks, R. (CERN) ; Spogli, L. (Università Roma Tre. Dipartimento di Fisica) ; Spousta, M. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Spreitzer, T. (University of Toronto. Department of Physics) ; Spurlock, B. (University of Texas at Arlington. Department of Physics) ; St. Denis, R. D. (University of Glasgow. Department of Physics and Astronomy) ; Stahl, T. (Universität Siegen. Fachbereich Physik) ; Stahlman, J. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Stamen, R. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Stancu, S. N. (University of California. Department of Physics and Astronomy) ; Stanecka, E. (CERN) ; Stanek, R. W. (Argonne National Laboratory. High Energy Physics Division) ; Stanescu, C. (INFN Sezione di Roma Tre) ; Stapnes, S. (University of Oslo. Department of Physics) ; Starchenko, E. A. (State Research Center Institute for High Energy Physics) ; Stark, J. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Staroba, P. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Starovoitov, P. (National Scientific and Educational Centre for Particle and High Energy Physics. NC PHEP BSU) ; Stastny, J. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Staude, A. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Stavina, P. (Comenius University. Faculty of Mathematics. Physics and Informatics) ; Stavropoulos, G. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Steele, G. (University of Glasgow. Department of Physics and Astronomy) ; Stefanidis, E. (University College London. Department of Physics and Astronomy) ; Steinbach, P. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Steinberg, Peter (Brookhaven National Laboratory. Physics Department) ; Stekl, I. (Czech Technical University in Prague) ; Stelzer, B. (Simon Fraser University. Department of Physics) ; Stelzer, H. J. (DESY) ; Stelzer-Chilton, O. (TRIUMF) ; Stenzel, H. (Justus-Liebig-Universität Giessen. II Physikalisches Institut) ; Stevenson, K. (Queen Mary University of London. Department of Physics) ; Stewart, G. A. (University of Glasgow. Department of Physics and Astronomy) ; Stiller, W. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Stockmanns, T. (University of Bonn. Physikalisches Institut) ; Stockton, M. C. (CERN) ; Stodulski, M. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Stoerig, K. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Stoicea, G. (National Institute of Physics and Nuclear Engineering) ; Stonjek, S. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Strachota, P. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Stradling, A. R. (University of Texas at Arlington. Department of Physics) ; Straessner, A. (Technical University Dresden. Institut für Kern- und Teilchenphysik) ; Strandberg, J. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Strandberg, S. (Oskar Klein Centre. AlbaNova) ; Strandlie, A. (University of Oslo. Department of Physics) ; Strang, M. (Ohio State University) ; Strauss, M. (University of Oklahoma. Homer L. Dodge Department of Physics and Astronomy) ; Strizenec, P. (Institute of Experimental Physics of the Slovak Academy of Sciences. Dept. of Subnuclear Physics) ; Ströhmer, R. (Julius-Maximilians-University of Würzburg. Physikalisches Institute) ; Strom, D. M. (University of Oregon. Center for High Energy Physics) ; Strong, J. A. (Royal Holloway. University of London. Department of Physics) ; Stroynowski, R. (Southern Methodist University. Physics Department) ; Strube, J. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Stugu, B. (University of Bergen. Department for Physics and Technology) ; Stumer, I. (Brookhaven National Laboratory. Physics Department) ; Stupak, J. (Stony Brook University. Department of Physics and Astronomy) ; Sturm, P. (Bergische Universität. Fachbereich C. Physik) ; Soh, D. A. (School of Physics and Engineering. Sun Yat-Sen University) ; Su, D. (SLAC National Accelerator Laboratory) ; Sugaya, Y. (Osaka University. Graduate School of Science) ; Sugimoto, T. (Nagoya University. Graduate School of Science) ; Suhr, C. (Department of Physics. Northern Illinois University) ; Suita, K. (Kobe University. Graduate School of Science) ; Suk, M. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Sulin, V. V. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Sultansoy, S. (TOBB University of Economics and Technology. Faculty of Arts and Sciences. Division of Physics) ; Sumida, T. (CERN) ; Sun, X. H. (Shandong University. High Energy Physics Group) ; Sundermann, J. E. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Suruliz, K. (ICTP) ; Sushkov, S. (Institut de Física d'Altes Energies) ; Susinno, G. (Dipartimento di Fisica. Università della Calabria) ; Sutton, M. R. (University of Sheffield. Department of Physics and Astronomy) ; Suzuki, Y. (KEK. High Energy Accelerator Research Organization) ; Sviridov, Y. M. (State Research Center Institute for High Energy Physics) ; Swedish, S. (University of British Columbia. Department of Physics) ; Sykora, I. (Comenius University. Faculty of Mathematics. Physics and Informatics) ; Sykora, T. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Szczygiel, R. R. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Szeless, B. (CERN) ; Szymocha, T. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Sánchez, J. (Institut de Microelectrònica de Barcelona) ; Ta, D. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Taboada Gameiro, S. (CERN) ; Tackmann, K. (CERN) ; Taffard, A. (University of California. Department of Physics and Astronomy) ; Tafirout, R. (TRIUMF) ; Taga, A. (University of Oslo. Department of Physics) ; Takahashi, Y. (Nagoya University. Graduate School of Science) ; Takai, H. (Brookhaven National Laboratory. Physics Department) ; Takashima, R. (Kyoto University of Education) ; Takeda, H. (Kobe University. Graduate School of Science) ; Takeshita, T. (Shinshu University. Department of Physics. Faculty of Science) ; Talby, M. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Talyshev, A. (Budker Institute of Nuclear Physics) ; Tamsett, M. C. (Royal Holloway. University of London. Department of Physics) ; Tanaka, J. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Tanaka, R. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Tanaka, S. (Ritsumeikan University) ; Tanaka, Y. (Nagasaki Institute of Applied Science) ; Tani, K. (Kobe University. Graduate School of Science) ; Tappern, G. P. (CERN) ; Tapprogge, S. (Universität Mainz. Institut für Physik) ; Tardif, D. (University of Toronto. Department of Physics) ; Tarem, S. (Technion. Israel Inst. of Technology. Department of Physics) ; Tarrade, F. (Brookhaven National Laboratory. Physics Department) ; Tartarelli, G. F. (INFN Sezione di Milano) ; Tas, P. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Tasevsky, M. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Tassi, E. (Dipartimento di Fisica. Università della Calabria) ; Tatarkhanov, M. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Taylor, C. (University College London. Department of Physics and Astronomy) ; Taylor, F. E. (Massachusetts Institute of Technology. Department of Physics) ; Taylor, G. (University of California Santa Cruz. Santa Cruz Institute for Particle Physics (SCIPP)) ; Taylor, G. N. (University of Melbourne. School of Physics) ; Taylor, R. P. (University of Victoria. Department of Physics and Astronomy) ; Taylor, W. (York University. Department of Physics and Astronomy) ; Teixeira Dias Castanheira, M. (Queen Mary University of London. Department of Physics) ; Teixeira-Dias, P. (Royal Holloway. University of London. Department of Physics) ; Temming, K. K. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Ten Kate, H. (CERN) ; Teng, P. K. (Insitute of Physics. Academia Sinica) ; Tennenbaum-Katan, Y. D. (Technion. Israel Inst. of Technology. Department of Physics) ; Terada, S. (KEK. High Energy Accelerator Research Organization) ; Terashi, K. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Terron, J. (Universidad Autónoma de Madrid. Departamento de Física Teórica) ; Terwort, M. (Institut für Experimentalphysik. Universität Hamburg) ; Testa, M. (INFN Laboratori Nazionali di Frascati) ; Teuscher, R. J. (Institute of Particle Physics (IPP)) ; Tevlin, C. M. (University of Manchester. School of Physics and Astronomy) ; Thadome, J. (Bergische Universität. Fachbereich C. Physik) ; Therhaag, J. (University of Bonn. Physikalisches Institut) ; Theveneaux-Pelzer, T. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Thioye, M. (Yale University. Department of Physics) ; Thoma, S. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Thomas, J. P. (University of Birmingham. School of Physics and Astronomy) ; Thompson, E. N. (University of Massachusetts. Department of Physics) ; Thompson, P. D. (University of Toronto. Department of Physics) ; Thompson, R. J. (University of Manchester. School of Physics and Astronomy) ; Thompson, A. S. (University of Glasgow. Department of Physics and Astronomy) ; Thomson, E. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Thomson, M. (University of Cambridge. Cavendish Laboratory) ; Thun, R. P. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Tic, T. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Tikhomirov, V. O. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Tikhonov, Y. A. (Budker Institute of Nuclear Physics) ; Timmermans, C. J. W. P. (Radboud University Nijmegen/NIKHEF. Department of Experimental High Energy Physics) ; Tipton, P. (Yale University. Department of Physics) ; Tique Aires Viegas, F. J. (CERN) ; Tisserant, S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Tobias, J. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Toczek, B. (Faculty of Physics and Applied Computer Science. AGH-University of Science and Technology) ; Todorov, T. (LAPP. Université de Savoie. CNRS/IN2P3) ; Todorova-Nova, S. (Tufts University. Science and Technology Center) ; Toggerson, B. (University of California. Department of Physics and Astronomy) ; Tojo, J. (KEK. High Energy Accelerator Research Organization) ; Tokár, S. (Comenius University. Faculty of Mathematics. Physics and Informatics) ; Tokunaga, K. (Kobe University. Graduate School of Science) ; Tokushuku, K. (KEK. High Energy Accelerator Research Organization) ; Tollefson, K. (Michigan State University. Department of Physics and Astronomy. High Energy Physics Group) ; Tomasek, L. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Tomasek, M. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Tomoto, M. (Nagoya University. Graduate School of Science) ; Tompkins, D. (University of Arizona. Department of Physics) ; Tompkins, L. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Toms, K. (University of New Mexico. Department of Physics and Astronomy) ; Tonazzo, A. (Università Roma Tre. Dipartimento di Fisica) ; Tong, G. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Tonoyan, A. (University of Bergen. Department for Physics and Technology) ; Topfel, C. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Topilin, N. D. (Joint Institute for Nuclear Research. JINR Dubna) ; Torchiani, I. (CERN) ; Torrence, E. (University of Oregon. Center for High Energy Physics) ; Torró Pastor, E. (Institut de Microelectrònica de Barcelona) ; Toth, J. (KFKI Research Institute for Particle and Nuclear Physics) ; Touchard, F. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Tovey, D. R. (University of Sheffield. Department of Physics and Astronomy) ; Traynor, D. (Queen Mary University of London. Department of Physics) ; Trefzger, T. (Julius-Maximilians-University of Würzburg. Physikalisches Institute) ; Treis, J. (University of Bonn. Physikalisches Institut) ; Tremblet, L. (CERN) ; Tricoli, A. (CERN) ; Trigger, I. M. (TRIUMF) ; Trincaz-Duvoid, S. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Trinh, T. N. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Tripiana, M. F. (Universidad Nacional de La Plata. FCE. Departamento de Física. IFLP (CONICET-UNLP)) ; Triplett, N. (Iowa State University. Department of Physics and Astronomy. Ames High Energy Physics Group) ; Trischuk, W. (University of Toronto. Department of Physics) ; Trivedi, A. (University of South Carolina. Dept. of Physics and Astronomy) ; Trocmé, B. (Laboratoire de Physique Subatomique et de Cosmologie. CNRS/IN2P3. Université Joseph Fourier. INPG) ; Troncon, C. (INFN Sezione di Milano) ; Trottier-McDonald, M. (Simon Fraser University. Department of Physics) ; Trzupek, A. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Tsarouchas, C. (National Technical University of Athens. Physics Department) ; Tseng, J. C. L. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Tsiakiris, M. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Tsiareshka, P. V. (B.I. Stepanov Institute of Physics. National Academy of Sciences of Belarus) ; Tsionou, D. (University of Sheffield. Department of Physics and Astronomy) ; Tsipolitis, G. (National Technical University of Athens. Physics Department) ; Tsiskaridze, V. (Tbilisi State University. HEP Institute) ; Tskhadadze, E. G. (Tbilisi State University. HEP Institute) ; Tsukerman, I. I. (Institute for Theoretical and Experimental Physics (ITEP)) ; Tsulaia, V. (University of Pittsburgh. Department of Physics and Astronomy) ; Tsung, J. W. (University of Bonn. Physikalisches Institut) ; Tsuno, S. (KEK. High Energy Accelerator Research Organization) ; Tsybychev, D. (Stony Brook University. Department of Physics and Astronomy) ; Tuggle, J. M. (University of Chicago. Enrico Fermi Institute) ; Turala, M. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Turecek, D. (Czech Technical University in Prague) ; Turk Cakir, I. (Turkish Atomic Energy Authority) ; Turlay, E. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Tuts, P. M. (Columbia University. Nevis Laboratory) ; Twomey, M. S. (University of Washington. Seattle. Department of Physics) ; Tylmad, M. (Oskar Klein Centre. AlbaNova) ; Tyndel, M. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Typaldos, D. (University of Birmingham. School of Physics and Astronomy) ; Tyrvainen, H. (CERN) ; Tzamarioudaki, E. (National Technical University of Athens. Physics Department) ; Tzanakos, G. (University of Athens. Nuclear and Particle Physics. Department of Physics) ; Uchida, K. (University of Bonn. Physikalisches Institut) ; Ueda, I. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Ueno, R. (Carleton University. Department of Physics) ; Ugland, M. (University of Bergen. Department for Physics and Technology) ; Uhlenbrock, M. (University of Bonn. Physikalisches Institut) ; Uhrmacher, M. (Georg-August-Universität. II. Physikalisches Institut) ; Ukegawa, F. (University of Tsukuba. Institute of Pure and Applied Sciences) ; Unal, G. (CERN) ; Underwood, D. G. (Argonne National Laboratory. High Energy Physics Division) ; Undrus, A. (Brookhaven National Laboratory. Physics Department) ; Unel, G. (University of California. Department of Physics and Astronomy) ; Unno, Y. (KEK. High Energy Accelerator Research Organization) ; Urbaniec, D. (Columbia University. Nevis Laboratory) ; Urkovsky, E. (Tel Aviv University. Raymond and Beverly Sackler School of Physics and Astronomy) ; Urquijo, P. (LHCb 31.01.2010) ; Urrejola, P. (Pontificia Universidad Católica de Chile. Facultad de Fisica. Departamento de Fisica) ; Usai, G. (University of Texas at Arlington. Department of Physics) ; Uslenghi, M. (Università di Pavia. Dipartimento di Fisica Nucleare e Teorica) ; Vacavant, L. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Vacek, V. (Czech Technical University in Prague) ; Vachon, B. (McGill University. High Energy Physics Group) ; Vahsen, S. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Valderanis, C. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Valenta, J. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Valente, P. (INFN Sezione di Roma I) ; Valentinetti, S. (Dipartimento di Fisica. Università di Bologna) ; Valkar, S. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Valladolid Gallego, E. (Institut de Microelectrònica de Barcelona) ; Vallecorsa, S. (Technion. Israel Inst. of Technology. Department of Physics) ; Valls Ferrer, J. A. (Institut de Microelectrònica de Barcelona) ; Van Berg, R. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Van Der Graaf, H. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Van Der Kraaij, E. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Van Der Poel, E. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Van Der Ster, D. (CERN) ; Van Eijk, B. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Van Eldik, N. (University of Massachusetts. Department of Physics) ; Van Gemmeren, P. (Argonne National Laboratory. High Energy Physics Division) ; Van Kesteren, Z. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Van Vulpen, I. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Vandelli, W. (CERN) ; Vandoni, G. (CERN) ; Vaniachine, A. (Argonne National Laboratory. High Energy Physics Division) ; Vankov, P. (University of Liverpool. Oliver Lodge Laboratory) ; Vannucci, F. (Laboratoire de Physique Nucléaire et de Hautes Energies. Université Pierre et Marie Curie (Paris 6). Université Denis Diderot (Paris-7)) ; Varela Rodriguez, F. (CERN) ; Vari, R. (INFN Sezione di Roma I) ; Varnes, E. W. (University of Arizona. Department of Physics) ; Varouchas, D. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Vartapetian, A. (University of Texas at Arlington. Department of Physics) ; Varvell, K. E. (University of Sydney. School of Physics) ; Vasilyeva, L. (P.N. Lebedev Institute of Physics. Academy of Sciences) ; Vassilakopoulos, V. I. (Hampton University. Department of Physics) ; Vazeille, F. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Vegni, G. (Università di Milano. Dipartimento di Fisica) ; Veillet, J. J. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Vellidis, C. (University of Athens. Nuclear and Particle Physics. Department of Physics) ; Veloso, F. (Laboratório de Instrumentação e Física Experimental de Partículas - LIP) ; Veness, R. (CERN) ; Veneziano, S. (INFN Sezione di Roma I) ; Ventura, A. (Università del Salento. Dipartimento di Fisica) ; Ventura, D. (University of Washington. Seattle. Department of Physics) ; Ventura, S. (INFN Laboratori Nazionali di Frascati) ; Venturi, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Venturi, N. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Vercesi, V. (INFN Sezione di Pavia) ; Verducci, M. (University of Washington. Seattle. Department of Physics) ; Verkerke, W. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Vermeulen, J. C. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Vertogardov, L. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Vetterli, M. C. (TRIUMF) ; Vichou, I. (University of Illinois. Department of Physics) ; Vickey, T. (School of Physics. University of the Witwatersrand) ; Viehhauser, G. H. A. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Viel, S. (University of British Columbia. Department of Physics) ; Villa, M. (Dipartimento di Fisica. Università di Bologna) ; Villani, E. G. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Villaplana Perez, Miguel (Institut de Microelectrònica de Barcelona) ; Vilucchi, E. (INFN Laboratori Nazionali di Frascati) ; Vincter, M. G. (Carleton University. Department of Physics) ; Vinek, E. (CERN) ; Vinogradov, V. B. (Joint Institute for Nuclear Research. JINR Dubna) ; Virchaux, M. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Viret, S. (Laboratoire de Physique Corpusculaire. Clermont Université. Université Blaise Pascal) ; Virzi, J. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Vitale, A. (Dipartimento di Fisica. Università di Bologna) ; Vitells, O. (Weizmann Institute of Science (Israel). Department of Particle Physics) ; Vivarelli, I. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Vives Vaque, F. (Institut de Física d'Altes Energies) ; Vlachos, S. (National Technical University of Athens. Physics Department) ; Vlasak, M. (Czech Technical University in Prague) ; Vlasov, N. (University of Bonn. Physikalisches Institut) ; Vogel, A. (University of Bonn. Physikalisches Institut) ; Vokac, P. (Czech Technical University in Prague) ; Volpi, M. (Institut de Física d'Altes Energies) ; Volpini, G. (INFN Sezione di Milano) ; Von Der Schmitt, H. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Von Loeben, J. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Von Radziewski, H. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Von Toerne, E. (University of Bonn. Physikalisches Institut) ; Vorobel, V. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Vorobiev, A. P. (State Research Center Institute for High Energy Physics) ; Vorwerk, V. (Institut de Física d'Altes Energies) ; Vos, M. (Institut de Microelectrònica de Barcelona) ; Voss, R. (CERN) ; Voss, T. T. (Bergische Universität. Fachbereich C. Physik) ; Vossebeld, J. H. (University of Liverpool. Oliver Lodge Laboratory) ; Vovenko, A. S. (State Research Center Institute for High Energy Physics) ; Vranjes, N. (University of Belgrade. Institute of Physics) ; Vranjes Milosavljevic, M. (University of Belgrade. Institute of Physics) ; Vrba, V. (Institute of Physics. Academy of Sciences of the Czech Republic) ; Vreeswijk, M. (Nikhef National Institute for Subatomic Physics. University of Amsterdam) ; Vu Anh, T. (Universität Mainz. Institut für Physik) ; Vudragovic, D. (University of Belgrade. Institute of Physics) ; Vuillermet, R. (CERN) ; Vukotic, I. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Wagner, W. (Bergische Universität. Fachbereich C. Physik) ; Wagner, P. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Wahlen, H. (Bergische Universität. Fachbereich C. Physik) ; Walbersloh, J. (TU Dortmund. Experimentelle Physik IV) ; Walder, J. (Lancaster University. Physics Department) ; Walker, R. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Walkowiak, W. (Universität Siegen. Fachbereich Physik) ; Wall, R. (Yale University. Department of Physics) ; Waller, P. (University of Liverpool. Oliver Lodge Laboratory) ; Wang, C. (Duke University. Department of Physics) ; Wang, H. (University of Wisconsin. Department of Physics) ; Wang, J. (Shandong University. High Energy Physics Group) ; Wang, J. C. (University of Washington. Seattle. Department of Physics) ; Wang, S. M. (Insitute of Physics. Academia Sinica) ; Warburton, A. (McGill University. High Energy Physics Group) ; Ward, C. P. (University of Cambridge. Cavendish Laboratory) ; Warsinsky, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Wastie, R. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Watkins, P. M. (University of Birmingham. School of Physics and Astronomy) ; Watson, A. T. (University of Birmingham. School of Physics and Astronomy) ; Watson, M. F. (University of Birmingham. School of Physics and Astronomy) ; Watts, G. (University of Washington. Seattle. Department of Physics) ; Watts, S. (University of Manchester. School of Physics and Astronomy) ; Waugh, A. T. (University of Sydney. School of Physics) ; Waugh, B. M. (University College London. Department of Physics and Astronomy) ; Webel, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Weber, J. (TU Dortmund. Experimentelle Physik IV) ; Weber, M. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Weber, M. S. (University of Bern. Albert Einstein Center for Fundamental Physics. Laboratory for High Energy Physics) ; Weber, P. (Georg-August-Universität. II. Physikalisches Institut) ; Weidberg, A. R. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Weingarten, J. (Georg-August-Universität. II. Physikalisches Institut) ; Weiser, C. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Wellenstein, H. (Brandeis University. Department of Physics) ; Wells, P. S. (CERN) ; Wen, M. (INFN Laboratori Nazionali di Frascati) ; Wenaus, T. (Brookhaven National Laboratory. Physics Department) ; Wendler, S. (University of Pittsburgh. Department of Physics and Astronomy) ; Weng, Z. (School of Physics and Engineering. Sun Yat-Sen University) ; Wengler, T. (CERN) ; Wenig, S. (CERN) ; Wermes, N. (University of Bonn. Physikalisches Institut) ; Werner, M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Werner, P. (CERN) ; Werth, M. (University of California. Department of Physics and Astronomy) ; Werthenbach, U. (Universität Siegen. Fachbereich Physik) ; Wessels, M. (Ruprecht-Karls-Universität Heidelberg. Kirchhoff-Institut für Physik) ; Whalen, K. (Carleton University. Department of Physics) ; Wheeler-Ellis, S. J. (University of California. Department of Physics and Astronomy) ; Whitaker, S. P. (Boston University. Department of Physics) ; White, A. (University of Texas at Arlington. Department of Physics) ; White, M. J. (University of Cambridge. Cavendish Laboratory) ; White, S. (Brookhaven National Laboratory. Physics Department) ; Whitehead, S. R. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Whiteson, D. (University of California. Department of Physics and Astronomy) ; Whittington, D. (Indiana University. Department of Physics) ; Wicek, F. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Wicke, D. (Universität Mainz. Institut für Physik) ; Wickens, F. J. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Wiedenmann, W. (University of Wisconsin. Department of Physics) ; Wielers, M. (Rutherford Appleton Laboratory. Science and Technology Facilities Council. Harwell Science and Innovation Campus) ; Wienemann, P. (University of Bonn. Physikalisches Institut) ; Wiglesworth, C. (University of Liverpool. Oliver Lodge Laboratory) ; Wiik, L. A. M. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Wildauer, A. (Institut de Microelectrònica de Barcelona) ; Wildt, M. A. (Institut für Experimentalphysik. Universität Hamburg) ; Wilhelm, I. (Charles University in Prague. Faculty of Mathematics and Physics. Institute of Particle and Nuclear Physics) ; Wilkens, H. G. (CERN) ; Will, J. Z. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Williams, E. (Columbia University. Nevis Laboratory) ; Williams, H. H. (University of Pennsylvania. Department of Physics. High Energy Physics Group) ; Willis, W. (Columbia University. Nevis Laboratory) ; Willocq, S. (University of Massachusetts. Department of Physics) ; Wilson, J. A. (University of Birmingham. School of Physics and Astronomy) ; Wilson, M. G. (SLAC National Accelerator Laboratory) ; Wilson, A. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Wingerter-Seez, I. (LAPP. Université de Savoie. CNRS/IN2P3) ; Winkelmann, S. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Winklmeier, F. (CERN) ; Wittgen, M. (SLAC National Accelerator Laboratory) ; Wolter, M. W. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Wolters, H. (Department of Physics. University of Coimbra) ; Wosiek, B. K. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Wotschack, J. (CERN) ; Woudstra, M. J. (University of Massachusetts. Department of Physics) ; Wraight, K. (University of Glasgow. Department of Physics and Astronomy) ; Wright, C. (University of Glasgow. Department of Physics and Astronomy) ; Wright, D. (SLAC National Accelerator Laboratory) ; Wrona, B. (University of Liverpool. Oliver Lodge Laboratory) ; Wu, S. L. (University of Wisconsin. Department of Physics) ; Wu, X. (Université de Genève. Section de Physique) ; Wuestenfeld, J. (TU Dortmund. Experimentelle Physik IV) ; Wulf, E. (Columbia University. Nevis Laboratory) ; Wunstorf, R. (TU Dortmund. Experimentelle Physik IV) ; Wynne, B. M. (University of Edinburgh. School of Physics and Astronomy. James Clerk Maxwell Building) ; Xaplanteris, L. (National Technical University of Athens. Physics Department) ; Xella, S. (University of Copenhagen. Niels Bohr Institute) ; Xie, S. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Xie, Y. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Xu, C. (University of Science and Technology of China (USTC). Department of Modern Physics) ; Xu, D. (University of Sheffield. Department of Physics and Astronomy) ; Xu, G. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Xu, N. (University of Wisconsin. Department of Physics) ; Yabsley, B. (University of Sydney. School of Physics) ; Yamada, M. (KEK. High Energy Accelerator Research Organization) ; Yamamoto, A. (KEK. High Energy Accelerator Research Organization) ; Yamamoto, K. (Iowa State University. Department of Physics and Astronomy. Ames High Energy Physics Group) ; Yamamoto, S. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Yamamura, T. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Yamaoka, J. (Duke University. Department of Physics) ; Yamazaki, T. (University of Tokyo. International Center for Elementary Particle Physics. Department of Physics) ; Yamazaki, Y. (Kobe University. Graduate School of Science) ; Yan, Z. (Boston University. Department of Physics) ; Yang, H. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Yang, S. (Oxford University. Department of Physics. Denys Wilkinson Building) ; Yang, U. K. (University of Manchester. School of Physics and Astronomy) ; Yang, Y. (Indiana University. Department of Physics) ; Yang, Z. (Oskar Klein Centre. AlbaNova) ; Yanush, S. (National Scientific and Educational Centre for Particle and High Energy Physics. NC PHEP BSU) ; Yao, W. M. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Yao, Y. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Yasu, Y. (KEK. High Energy Accelerator Research Organization) ; Ye, J. (Southern Methodist University. Physics Department) ; Ye, S. (Brookhaven National Laboratory. Physics Department) ; Yilmaz, M. (Gazi University. Faculty of Arts and Sciences. Department of Physics) ; Yoosoofmiya, R. (University of Pittsburgh. Department of Physics and Astronomy) ; Yorita, K. (Waseda University. WISE) ; Yoshida, H. (Naruto University of Education) ; Yoshida, R. (Argonne National Laboratory. High Energy Physics Division) ; Young, C. (SLAC National Accelerator Laboratory) ; Youssef, S. P. (Boston University. Department of Physics) ; Yu, D. (Brookhaven National Laboratory. Physics Department) ; Yu, J. (CEA. DSM/IRFU. Centre d'Etudes de Saclay) ; Yuan, J. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Yuan, L. (LPNHE) ; Yurkewicz, A. (Stony Brook University. Department of Physics and Astronomy) ; Zaets, V. G. (State Research Center Institute for High Energy Physics) ; Zaidan, R. (University of Iowa) ; Zaitsev, A. M. (State Research Center Institute for High Energy Physics) ; Zajacova, Z. (CERN) ; Zalite, Y. K. (Petersburg Nuclear Physics Institute) ; Zambrano, V. (INFN Laboratori Nazionali di Frascati) ; Zanello, L. (Università La Sapienza. Dipartimento di Fisica) ; Zarzhitsky, P. (Southern Methodist University. Physics Department) ; Zaytsev, A. (Budker Institute of Nuclear Physics) ; Zdrazil, M. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Zeitnitz, C. (Bergische Universität. Fachbereich C. Physik) ; Zeller, M. (Yale University. Department of Physics) ; Zema, P. F. (CERN) ; Zemla, A. (Henryk Niewodniczanski Institute of Nuclear Physics. Polish Academy of Sciences) ; Zendler, C. (University of Bonn. Physikalisches Institut) ; Zenin, A. V. (State Research Center Institute for High Energy Physics) ; Zenin, O. (State Research Center Institute for High Energy Physics) ; Ženiš, T. (Comenius University. Faculty of Mathematics. Physics and Informatics) ; Zenonos, Z. (Università di Pisa. Dipartimento di Fisica E. Fermi) ; Zenz, S. (Lawrence Berkeley National Laboratory. University of California. Physics Division) ; Zerwas, D. (LAL. Univ. Paris-Sud. IN2P3/CNRS) ; Zevi Della Porta, G. (Harvard University. Laboratory for Particle Physics and Cosmology) ; Zhan, Z. (Shandong University. High Energy Physics Group) ; Zhang, H. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ; Zhang, J. (Argonne National Laboratory. High Energy Physics Division) ; Zhang, Q. (Argonne National Laboratory. High Energy Physics Division) ; Zhang, X. (Shandong University. High Energy Physics Group) ; Zhao, L. (New York University. Department of Physics) ; Zhao, T. (University of Washington. Seattle. Department of Physics) ; Zhao, Z. (University of Science and Technology of China (USTC). Department of Modern Physics) ; Zhemchugov, A. (Joint Institute for Nuclear Research. JINR Dubna) ; Zheng, S. (Institute of High Energy Physics. Chinese Academy of Sciences) ; Zhong, J. (Insitute of Physics. Academia Sinica) ; Zhou, B. (University of Michigan. Department of Physics. 2477 Randall Laboratory) ; Zhou, N. (University of California. Department of Physics and Astronomy) ; Zhou, Y. (Insitute of Physics. Academia Sinica) ; Zhu, C. G. (Shandong University. High Energy Physics Group) ; Zhu, H. (DESY) ; Zhu, Y. (University of Wisconsin. Department of Physics) ; Zhuang, X. (Ludwig-Maximilians-Universität München. Fakultät für Physik) ; Zhuravlov, V. (Max-Planck-Institut für Physik. Werner-Heisenberg-Institut) ; Zilka, B. (Comenius University. Faculty of Mathematics. Physics and Informatics) ; Zimmermann, R. (University of Bonn. Physikalisches Institut) ; Zimmermann, S. (Albert-Ludwigs-Universität. Fakultät für Mathematik und Physik) ; Ziolkowski, M. (Universität Siegen. Fachbereich Physik) ; Zitoun, R. (LAPP. Université de Savoie. CNRS/IN2P3) ; Živković, L. (Columbia University. Nevis Laboratory) ; Zmouchko, V. V. (State Research Center Institute for High Energy Physics) ; Zobernig, G. (University of Wisconsin. Department of Physics) ; Zoccoli, A. (Dipartimento di Fisica. Università di Bologna) ; Zolnierowski, Y. (LAPP. Université de Savoie. CNRS/IN2P3) ; Zsenei, A. (CERN) ; Zur Nedden, M. (Humboldt University. Institute of Physics. Berlin) ; Zutshi, Vishnu V (Department of Physics. Northern Illinois University)
First measurements of the W → ℓν and Z/γ → ℓℓ (ℓ = e, μ) production cross sections in proton-proton collisions at √ s = 7TeV are presented using data recorded by the ATLAS experiment at the LHC. [...]
2010 - 10.1007/JHEP12(2010)060
Journal of high energy physics, Vol. 2010 issue 12 (Dec. 2010) , art. 60  
6.
15 p, 4.6 MB Human Stefin B Role in Cell's Response to Misfolded Proteins and Autophagy / Polajnar, Mira (Jožef Stefan International Postgraduate School) ; Zavašnik-Bergant, Tina (Jožef Stefan Institute. Department of Biochemistry and Molecular and Structural Biology) ; Škerget, Katja (Jožef Stefan Institute. Department of Molecular and Biomedical Science) ; Vizovišek, Matej (Jožef Stefan International Postgraduate School) ; Vidmar, Robert (Jožef Stefan International Postgraduate School) ; Fonović, Marko (Jožef Stefan International Postgraduate School) ; Kopitar-Jerala, Nataša (Jožef Stefan Institute. Department of Biochemistry and Molecular and Structural Biology) ; Petrovič, Uroš (Jožef Stefan Institute. Department of Molecular and Biomedical Science) ; Navarro, Susanna (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Ventura, Salvador (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Žerovnik, Eva (Center of Excellence for integrated approaches in chemistry and biology of proteins)
Alternative functions, apart from cathepsins inhibition, are being discovered for stefin B. Here, we investigate its role in vesicular trafficking and autophagy. Astrocytes isolated from stefin B knock-out (KO) mice exhibited an increased level of protein aggregates scattered throughout the cytoplasm. [...]
2014 - 10.1371/journal.pone.0102500
PloS one, Vol. 9, Issue 7 (July 2014) , art. e102500  
7.
3 p, 125.0 KB Editorial : Protein Aggregation and Solubility in Microorganisms (Archaea, Bacteria and Unicellular Eukaryotes): Implications and Applications / Skretas, Georgios (National Hellenic Research Foundation. Institute of Chemical Biology) ; Ventura, Salvador (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular
2020 - 10.3389/fmicb.2020.620239
Frontiers in microbiology, Vol. 11 (November 2020) , art. 620939  
8.
3 p, 455.5 KB Special Issue : "Inflammation, Oxidative Stress and Protein Aggregation; Any Links?" / Žerovnik, Eva (Jožef Stefan Institute. Department of Biochemistry and Molecular and Structural Biology) ; Ventura, Salvador (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Jerala, Nataša Kopitar (Jožef Stefan Institute. Department of Biochemistry and Molecular and Structural Biology) ; Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí"
2020 - 10.3390/cells9112461
Cells, Vol. 9, Issue 11 (November 2020) , art. 2461  
9.
24 p, 13.8 MB Sensitivity study of PBL schemes and soil initialization using the WRF-BEP-BEM model over a Mediterranean coastal city / Segura, Ricard (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ; Badia, Alba (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ; Ventura, Sergi (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ; Gilabert, Joan (Universitat Autònoma de Barcelona. Institut de Ciència i Tecnologia Ambientals) ; Martilli, Alberto (Centro de Investigación en Energía, Medio Ambiente y Tecnología) ; Villalba, Gara (Universitat Autònoma de Barcelona. Departament d'Enginyeria Química, Biològica i Ambiental)
Due to increased urbanization and global warming, cities are experiencing more heat wave (HW) events that cause extreme heat stress. To mitigate such effects, a better understanding of the impact of urban morphology on the boundary layer development is needed. [...]
2021 - 10.1016/j.uclim.2021.100982
Urban climate, Vol. 39 (September 2021) , art. 100982  
10.
12 p, 5.2 MB Functionalized Prion-Inspired Amyloids for Biosensor Applications / Díaz-Caballero, Marta (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí") ; Navarro, Susanna (Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular) ; Ventura, Salvador (Universitat Autònoma de Barcelona. Institut de Biotecnologia i de Biomedicina "Vicent Villar Palasí")
Protein amyloid nanofibers provide a biocompatible platform for the development of functional nanomaterials. However, the functionalities generated up to date are still limited. Typical building blocks correspond to aggregation-prone proteins and peptides, which must be modified by complex and expensive reactions post-assembly. [...]
2021 - 10.1021/acs.biomac.1c00222
Biomacromolecules, Vol. 22, Issue 7 (July 2021) , p. 2822-2833  

Articles : 119 registres trobats   1 - 10següentfinal  anar al registre:
Documents de recerca 26 registres trobats  1 - 10següentfinal  anar al registre:
1.
172 p, 7.7 MB Design of improved therapeutic proteins and novel protein-based nanomaterials / Gil-Garcia, Marcos ; Ventura Zamora, Salvador, dir.
Les proteïnes estan involucrades en innombrables processos biològics com catàlisis, transport, regulació, defensa i estructura cel·lular. Per a poder dur a terme aquestes funcions, la gran majoria d'elles necessiten plegar-se en una estructura 3D definida. [...]
Las proteínas están involucradas en innumerables procesos biológicos como catálisis, transporte, regulación, defensa y estructura celular. Para poder llevar a cabo estas funciones, la gran mayoría de ellas necesitan plegarse en una estructura 3D definida. [...]
Proteins are involved in a myriad of biological processes such as catalysis, transport, regulation, defense, and providing structure to the cell. Most proteins need to fold into a defined 3D structure to perform such functions. [...]

2022  
2.
194 p, 7.0 MB Bioinformatic analysis on the determinants of protein aggregation and conformational conversion / Iglesias Mas, Valentín ; Ventura Zamora, Salvador, dir.
L'agregació de proteïnes ha passat de ser gairebé una curiositat biofísica sense major interès a un dels camps més actius de la recerca, especialment des que es va esbrinar que podia ser la causa de diverses malalties en humans. [...]
La agregación de proteínas ha pasado de ser prácticamente una curiosidad biofísica sin mayor interés a uno de los campos más activos de la investigación, especialmente desde que se dilucidó como el causante de diversas enfermedades en humanos. [...]
Protein aggregation has moved from being an almost neglected biophysical curiosity to a central research field mostly due to aggregating proteins causing debilitating conditions in humans. The aggregation propensity of polypeptidic sequences is primarily dictated by their amino acid sequence, which delimits the possible interactions between amino acids. [...]

2021  
3.
285 p, 10.3 MB Connection between protein disorder, folding and aggregation : Physiological and Pathological implications / Pujols Pujol, Jordi ; Avilés, Francesc X, dir. ; Ventura Zamora, Salvador, dir.
Les Proteïnes o Regions Intrínsecament Desordenades (IDPs, IDRs) son una classe de polipèptids que són incapaços d'adoptar una estructura tridimensional definida en el seu estat natiu. La seva funció depèn de la flexibilitat estructural i de la fluctuació entre un conjunt de conformacions diferents. [...]
Las proteínas o Regiones Intrínsecamente Desordenadas (IDPs, IDRs) son una clase de polipéptidos incapaces de adoptar una estructura tridimensional definida en su estado nativo. Su función depende de la flexibilidad estructural y de la fluctuación entre un conjunto de diferentes conformaciones. [...]
Intrinsically Disordered Proteins (IDPs) and Regions (IDRs) are a class of polypeptides that lack defined three-dimensional structures. Instead, they populate a dynamic ensemble of flexible conformers that endorse them with unique properties to interact with multiple partners and mediate in signal transduction. [...]

2021  
4.
221 p, 7.9 MB Prion inspired nanomaterials and their biomedical applications / Wang, Weiqiang ; Ventura Zamora, Salvador, dir. ; Navarro, Susanna, dir.
Els amiloides presenten una estructura fibril·lar molt ordenada. Molts d'aquests conjunts de proteïnes apareixen associats a malalties humanes. No obstant això, es pot aprofitar la naturalesa controlable, estable, ajustable i robusta de les fibres amiloides per crear nanomaterials amb una àmplia gamma d'aplicacions. [...]
Los amiloides muestran una estructura fibrilar altamente ordenada. Muchos de estos ensamblajes aparecen asociados a enfermedades humanas. No obstante, la naturaleza controlable, estable, modulable y robusta de las fibras amiloides se puede emplear para construir nanomateriales notables con una amplia gama de aplicaciones. [...]
Amyloids display a highly ordered fibrillar structure. Many of these assemblies appear associated with human disease. However, the controllable, stable, tunable, and robust nature of amyloid fibrils can be exploited to build up remarkable nanomaterials with a wide range of applications. [...]

2020  
5.
198 p, 5.7 MB Human prion-like proteins and their relevance in disease / Batlle Carreras, Cristina ; Ventura i Zamora, Salvador, dir. ; Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular
Les "prion-like proteins" han anat adquirint una atenció cada cop major en els últims anys. El seu interès recau en: i) la seva implicació en malalties degeneratives; ii) la quantitat d'elles que presenten mutacions genètiques que augmenten el risc a patir la malaltia; iii) la seva habilitat d'establir interaccions proteiques; i iv) la seva participació en la formació dels orgànuls sense membrana. [...]
Las "prion-like proteins" han ido adquiriendo una atención cada vez mayor en los últimos años. Su interés se debe a: i) su implicación en enfermedades degenerativas; ii) la cantidad de ella que presentan mutaciones genéticas que aumentan el riesgo de sufrir la enfermedad; iii) su habilidad en establecer interacciones proteicas; iv) su participación en la formación de orgánulos sin membrana. [...]
Prion-like proteins have attracted significant attention in the last years. The interest in these polypeptides owes to: i) their implication in degenerative diseases; ii) the presence of disease-causing mutations that increase the risk to develop the disease; iii) their ability to establish protein-protein interactions; and iv) their participation in membraneless organelles formation. [...]

[Barcelona] : Universitat Autònoma de Barcelona, 2021.  
6.
257 p, 16.0 MB Prion inspired assemblies to build up functional bionanomaterials / Díaz-Caballero, Marta ; Ventura Zamora, Salvador, dir. ; Navarro, Susanna, dir. ; Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular
Malgrat l'ensamblatge amiloide ha estat tradicionalment relacionat amb malaltia, en les darreres dues dècades, s'ha ressaltat la seva implicació en importants funcions biològiques. Aquestes troballes han incrementat l'interès per al desenvolupament de nanomaterials inspirats en amiloides en múltiples àrees com la biomedicina, la nanoelectrònica, les ciències mediambientals o la nanotecnologia. [...]
Pese a que el ensamblaje amiloide se ha relacionado tradicionalmente con las enfermedades, en las últimas dos décadas, se ha destacado su implicación en importantes funciones biológicas. Estos hallazgos han incrementado el interés por el desarrollo de nanomateriales inspirados en amiloides en múltiples áreas como la biomedicina, la nanoelectrónica, las ciencias medioambientales o la nanotecnologia. [...]
Despite amyloid scaffolds have been traditionally related to disease, in the last two decades, it has been highlighted their involvement in important biological functions. These findings raised the interest in the development of amyloid based nanomaterials in multiple areas like biomedicine, nanoelectronics, environmental sciences and nanotechnology. [...]

[Barcelona] : Universitat Autònoma de Barcelona, 2021.  
7.
132 p, 2.0 MB Creación de un Plan de Comunicación de Crisis para el Ilustre Colegio de la Abogacía de Barcelona (ICAB) / Ventura Panal, Sara ; Danes Vilallonga, Arantza, dir. (Universitat Autònoma de Barcelona. Departament de Publicitat, Relacions Públiques i Comunicació Audiovisual) ; Universitat Autònoma de Barcelona. Facultat de Ciències de la Comunicació
Actualment, vivim en un món tecnològic on no existeix cap organització que quedi exempta de viure una situació de crisi. Si una entitat vol superar amb èxit una situació crítica, haurà de fer un ús estratègic de la comunicació. [...]
Actualmente, vivimos en un mundo tecnológico donde no existe ninguna organización que quede exenta de vivir una situación de crisis. Si una entidad quiere superar con éxito una situación crítica, tendrá que hacer un uso estratégico de la comunicación. [...]
Today, we live in a technological world where there is no organization that is exempt from experiencing a crisis situation. If an entity wants to successfully overcome a critical situation, it will have to make strategic use of communication. [...]

2020
Grau en Periodisme [971]  
8.
168 p, 8.7 MB A Multidisciplinary insight into the determinants of protein aggregation / Carija, Anita ; Ventura Zamora, Salvador, dir. ; Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular
Els trastorns neurodegeneratius crònics, condicions mèdiques que afecten a la població principalment a la seva darrera etapa de vida, representen un problema molt important a la societat moderna. Per això, trobar nous mètodes de diagnòstic i teràpies per tractar aquestes patologies representa un objectiu que cada vegada es presenta com més urgent. [...]
Chronic neurodegenerative disorders, the medical conditions that strike primarily mid- to late-life population, represent a major issue of modern society. Therefore, finding new diagnostic and therapeutic approaches to treat these disorders is a goal of increasing urgency. [...]

[Bellaterra] : Universitat Autònoma de Barcelona, 2018.  
9.
1 p, 3.6 MB Prion-like proteins, phase separation and neurodegenerative disorders / Gil-Garcia, Marcos ; Ventura, Salvador, dir. (Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular) ; Universitat Autònoma de Barcelona. Facultat de Biociències
2016
Grau en Bioquímica [814]  
10.
215 p, 7.5 MB From sequence to structure : determinants of functional and non-functional protein aggregation / Marinelli, Patrizia ; Ventura, Salvador, dir. (Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular) ; Navarro, Susanna, dir. (Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular) ; Universitat Autònoma de Barcelona. Departament de Bioquímica i de Biologia Molecular
El estudio de la agregación proteica representa un campo de investigación desafiante que abarca tanto el área biomédica como la biotecnológica. El creciente número de enfermedades humanas asociadas a la acumulación de agregados amiloides, así como la formación de depósitos intracelulares durante la producción recombinante de proteínas terapéuticas en modelos celulares ha impulsado la investigación para comprender y desarrollar estrategias contra la agregación de proteínas. [...]
The study of protein aggregation represents a challenging research field which embraces from biomedical to biotechnological areas. The growing number of human diseases associated to the deposition of amyloid aggregates as well as the formation of intracellular protein deposits during the recombinant production of therapeutic proteins in cell factories has pushed the research to understand and develop strategies against protein aggregation. [...]

Bellaterra : Universitat Autònoma de Barcelona, 2015  

Documents de recerca : 26 registres trobats   1 - 10següentfinal  anar al registre:
Materials acadèmics 43 registres trobats  1 - 10següentfinal  anar al registre:
1.
7 p, 124.5 KB Laboratori integrat 3 [100884] / Ventura Zamora, Salvador ; Universitat Autònoma de Barcelona. Facultat de Biociències
L'assignatura de Laboratori Integrat III forma part d'un conjunt de set assignatures que es distribueixen al llarg dels sis primers semestres del Grau en Bioquímica. L'objectiu formatiu d'aquestes assignatures és l'adquisició de competències pràctiques de l'estudiant. [...]
The subject of the Integrated Laboratory III is part of a set of seven subjects that are distributed throughout the first six semesters of the Degree in Biochemistry. The educational objective of these subjects is the acquisition by the student of practical skills. [...]
La asignatura de Laboratorio Integrado III forma parte de un conjunto de siete asignaturas que se distribuyen a lo largo de los seis primeros semestres del Grado en Bioquímica. El objetivo formativo de estas asignaturas es la adquisición de competencias prácticas del estudiante. [...]

2022-23
Grau en Bioquímica [814]
3 documents
2.
7 p, 130.2 KB Química i enginyeria de proteïnes [100857] / Ventura Zamora, Salvador ; Universitat Autònoma de Barcelona. Facultat de Biociències
L'assignatura Química e Ingenyeria de Proteïnes forma part de la materia "Biologia Molecular" i en ella s'estudien les característiques estructurals i funcionals dels aminoàcids i les proteïnes tant des d'un punt de vista basic com aplicat. [...]
The subject Chemical and Protein Engineering is part of the subject "Molecular Biology", in which the structural and functional characteristics of amino acids and proteins are studied from a basic and applied point of view. [...]
La asignatura Química e ingeniería de Proteínas forma parte de la materia "Biología Molecular" y en ella se estudian las características estructurales y funcionales de los aminoácidos y las proteínas tanto desde un punto de vista básico como aplicado. [...]

2022-23
Grau en Bioquímica [814]
3 documents
3.
7 p, 108.9 KB Laboratori integrat 3 [100884] / Ventura Zamora, Salvador ; Universitat Autònoma de Barcelona. Facultat de Biociències
L'assignatura de Laboratori Integrat III forma part d'un conjunt de set assignatures que es distribueixen al llarg dels sis primers semestres del Grau en Bioquímica. L'objectiu formatiu d'aquestes assignatures és l'adquisició de competències pràctiques de l'estudiant. [...]
The subject of the Integrated Laboratory III is part of a set of seven subjects that are distributed throughout the first six semesters of the Degree in Biochemistry. The educational objective of these subjects is the acquisition by the student of practical skills. [...]
La asignatura de Laboratorio Integrado III forma parte de un conjunto de siete asignaturas que se distribuyen a lo largo de los seis primeros semestres del Grado en Bioquímica. El objetivo formativo de estas asignaturas es la adquisición de competencias prácticas del estudiante. [...]

2021-22
Grau en Bioquímica [814]
3 documents
4.
7 p, 114.3 KB Química i enginyeria de proteïnes [100857] / Ventura Zamora, Salvador ; Navarro, Susanna ; Universitat Autònoma de Barcelona. Facultat de Biociències
L'assignatura Química e Ingenyeria de Proteïnes forma part de la materia "Biologia Molecular" i en ella s'estudien les característiques estructurals i funcionals dels aminoàcids i les proteïnes tant des d'un punt de vista basic com aplicat. [...]
The subject Chemical and Protein Engineering is part of the subject "Molecular Biology", in which the structural and functional characteristics of amino acids and proteins are studied from a basic and applied point of view. [...]
La asignatura Química e ingeniería de Proteínas forma parte de la materia "Biología Molecular" y en ella se estudian las características estructurales y funcionales de los aminoácidos y las proteínas tanto desde un punto de vista básico como aplicado. [...]

2021-22
Grau en Bioquímica [814]
3 documents
5.
4 p, 103.0 KB Pràctiques Professionals [42400] / Egea, Raquel ; Barbadilla Prados, Antonio ; Ruíz Panadero, Alfredo ; Senar Rosell, Miquel Àngel ; Ventura Zamora, Salvador ; Marechal, Jean-Didier Pierre ; Coronado-Zamora, Marta ; Yero Corona, Daniel ; Marco Sola, Santiago ; Masgrau Fontanet, Laura ; Conchillo-Solé, Oscar ; González Ruíz, Juan Ramón ; Casillas Viladerrams, Sònia ; Daura i Ribera, Xavier ; Universitat Autònoma de Barcelona. Facultat de Biociències
1 El principal objectiu d'aquestes pràctiques és promoure la interacció dels estudiants amb els ambients de recerca i professional que hi ha al seu voltant.
1 El principal objetivo de estas prácticas es promover la interacción de los estudiantes con los ambientes de investigación y profesional que hay a su alrededor.

2020-21
Màster Universitari en Bioinformàtica / Bioinformatics [1112]
3 documents
6.
6 p, 107.4 KB Laboratori integrat 3 [100884] / Ventura Zamora, Salvador ; Universitat Autònoma de Barcelona. Facultat de Biociències
L'assignatura de Laboratori Integrat III forma part d'un conjunt de set assignatures que es distribueixen al llarg dels sis primers semestres del Grau en Bioquímica. L'objectiu formatiu d'aquestes assignatures és l'adquisició de competències pràctiques de l'estudiant. [...]
La asignatura de Laboratorio Integrado III forma parte de un conjunto de siete asignaturas que se distribuyen a lo largo de los seis primeros semestres del Grado en Bioquímica. El objetivo formativo de estas asignaturas es la adquisición de competencias prácticas del estudiante. [...]

2020-21
Grau en Bioquímica [814]
3 documents
7.
6 p, 111.0 KB Química i enginyeria de proteïnes [100857] / Ventura Zamora, Salvador ; Navarro, Susanna ; Universitat Autònoma de Barcelona. Facultat de Biociències
L'assignatura Química e Ingenyeria de Proteïnes forma part de la materia "Biologia Molecular" i en ella s'estudien les característiques estructurals i funcionals dels aminoàcids i les proteïnes tant des d'un punt de vista basic com aplicat. [...]
La asignatura Química e ingeniería de Proteínas forma parte de la materia "Biología Molecular" y en ella se estudian las características estructurales y funcionales de los aminoácidos y las proteínas tanto desde un punto de vista básico como aplicado. [...]

2020-21
Grau en Bioquímica [814]
3 documents
8.
6 p, 107.6 KB Laboratori integrat 3 [100884] / Ventura Zamora, Salvador ; Universitat Autònoma de Barcelona. Facultat de Biociències
L'assignatura de Laboratori Integrat III forma part d'un conjunt de set assignatures que es distribueixen al llarg dels sis primers semestres del Grau en Bioquímica. L'objectiu formatiu d'aquestes assignatures és l'adquisició de competències pràctiques de l'estudiant. [...]
La asignatura de Laboratorio Integrado III forma parte de un conjunto de siete asignaturas que se distribuyen a lo largo de los seis primeros semestres del Grado en Bioquímica. El objetivo formativo de estas asignaturas es la adquisición de competencias prácticas del estudiante. [...]

2019-20
Grau en Bioquímica [814]
3 documents
9.
6 p, 111.0 KB Química i enginyeria de proteïnes [100857] / Ventura Zamora, Salvador ; Navarro, Susanna ; Universitat Autònoma de Barcelona. Facultat de Biociències
L'assignatura Química e Ingenyeria de Proteïnes forma part de la materia "Biologia Molecular" i en ella s'estudien les característiques estructurals i funcionals dels aminoàcids i les proteïnes tant des d'un punt de vista basic com aplicat. [...]
La asignatura Química e ingeniería de Proteínas forma parte de la materia "Biología Molecular" y en ella se estudian las características estructurales y funcionales de los aminoácidos y las proteínas tanto desde un punto de vista básico como aplicado. [...]

2019-20
Grau en Bioquímica [814]
3 documents
10.
6 p, 86.1 KB Laboratori integrat 3 [100884] / Ventura Zamora, Salvador ; Universitat Autònoma de Barcelona. Facultat de Biociències
L'assignatura de Laboratori Integrat III forma part d'un conjunt de set assignatures que es distribueixen al llarg dels sis primers semestres del Grau en Bioquímica. L'objectiu formatiu d'aquestes assignatures és l'adquisició de competències pràctiques de l'estudiant. [...]
The subject of the Integrated Laboratory III is part of a set of seven subjects that are distributed throughout the first six semesters of the Degree in Biochemistry. The educational objective of these subjects is the acquisition by the student of practical skills. [...]
La asignatura de Laboratorio Integrado III forma parte de un conjunto de siete asignaturas que se distribuyen a lo largo de los seis primeros semestres del Grado en Bioquímica. El objetivo formativo de estas asignaturas es la adquisición de competencias prácticas del estudiante. [...]

2018-19
Grau en Bioquímica [814]
3 documents

Materials acadèmics : 43 registres trobats   1 - 10següentfinal  anar al registre:
Vegeu també: autors amb noms similars
117 Ventura, Salvador
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