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Aprofundiment en Ergonomia [103007]
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Guimet Villalba, Raul ;
Universitat Autònoma de Barcelona.
Facultat de Medicina
Aquesta assignatura pretén assentar i profunditzar les bases de coneixement i avaluació, de l'entorn social i laboral de l'individu i donar eines de prevenció, mesura i tractament de problemes relacionats amb ergonomia i la seva utilitat a la vida cotidiana .
This subject intends to establish and deepen the knowledge and evaluation bases, of the social environment and the work of the individual and giving tools for the prevention, measurement and treatment of problems related to ergonomics and its usefulness in everyday life.
Esta asignatura pretende asentar y profundizar las bases de conocimiento y evaluación del entorno social y laboral del individuo y darle herramientas de prevención, medida y tratamiento de problemas relacionados con la ergonomía y su utilidad en la vida cotidiana.
2023-24
Grau en Fisioteràpia [961]
3 documentos
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4 p, 102.5 KB |
Aprofundiment en Ergonomia [103007]
/
Guimet Villalba, Raul ;
Universitat Autònoma de Barcelona.
Facultat de Medicina
Aquesta assignatura pretén assentar i profunditzar les bases de coneixement i avaluació, de l'entorn social i laboral de l'individu i donar eines de prevenció, mesura i tractament de problemes relacionats amb ergonomia i la seva utilitat a la vida cotidiana .
This subject intends to establish and deepen the knowledge and evaluation bases, of the social environment and the work of the individual and giving tools for the prevention, measurement and treatment of problems related to ergonomics and its usefulness in everyday life.
Esta asignatura pretende asentar y profundizar las bases de conocimiento y evaluación del entorno social y laboral del individuo y darle herramientas de prevención, medida y tratamiento de problemas relacionados con la ergonomía y su utilidad en la vida cotidiana.
2022-23
Grau en Fisioteràpia [961]
3 documentos
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6 p, 289.0 KB |
Search for the rare decay Bs 0→μ+μ-
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Abazov, V. M. (Joint Institute for Nuclear Research) ;
Abbott, B. (University of Oklahoma) ;
Abolins, M. (Michigan State University) ;
Acharya, B. S. (Tata Institute of Fundamental Research) ;
Adams, Maurice Lawrence (University of Illinois at Chicago) ;
Adams, Todd (Florida State University) ;
Alexeev, G. D. (Joint Institute for Nuclear Research) ;
Alkhazov, G. (Petersburg Nuclear Physics Institute) ;
Alton, A. (University of Michigan) ;
Alverson, George (Northeastern University) ;
Alves, Gelio (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Ancu, L. S. (Radboud University Nijmegen/NIKHEF) ;
Aoki, M. (Fermi National Accelerator Laboratory) ;
Arnoud, Y. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3. Institut National Polytechnique de Grenoble) ;
Arov, M. (Louisiana Tech University) ;
Askew, Andrew (Florida State University) ;
Åsman, B. (Stockholm University. Stockholm and Uppsala University) ;
Atramentov, O. (Rutgers University) ;
Ávila, Carlos (Universidad de los Andes) ;
BackusMayes, J. (University of Washington) ;
Badaud, F. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Bagby, L. (Fermi National Accelerator Laboratory) ;
Baldin, B. (Fermi National Accelerator Laboratory) ;
Bandurin, D. V. (Florida State University) ;
Banerjee, Sw (Tata Institute of Fundamental Research) ;
Barberis, E. (Northeastern University) ;
Barfuss, A. F. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Baringer, P. (University of Kansas) ;
Barreto, J. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Bartlett, J. F. (Fermi National Accelerator Laboratory) ;
Bassler, U. (CEA. Irfu. SPP) ;
Beale, S. (York University) ;
Bean, A. (University of Kansas) ;
Begalli, M. (Universidade do Estado do Rio de Janeiro) ;
Begel, M. (Brookhaven National Laboratory) ;
Belanger-Champagne, C. (Stockholm University. Stockholm and Uppsala University) ;
Bellantoni, L. (Fermi National Accelerator Laboratory) ;
Benitez, J. A. (Michigan State University) ;
Beri, S. B. (Panjab University) ;
Bernardi, G. (LPNHE. Universités Paris VI and VII. CNRS/IN2P3) ;
Bernhard, R. (Physikalisches Institut. Universität Freiburg) ;
Bertram, I. (Lancaster University) ;
Besançon, M. (CEA. Irfu. SPP) ;
Beuselinck, R. (Imperial College London) ;
Bezzubov, V. A. (Institute for High Energy Physics) ;
Bhat, P. C. (Fermi National Accelerator Laboratory) ;
Bhatnagar, V. (Panjab University) ;
Blazey, G. (Northern Illinois University) ;
Blessing, S. (Florida State University) ;
Bloom, K. (University of Nebraska) ;
Boehnlein, A. (Fermi National Accelerator Laboratory) ;
Boline, D. (State University of New York) ;
Bolton, T. A. (Kansas State University) ;
Boos, E. E. (Moscow State University) ;
Borissov, G. (Lancaster University) ;
Bose, T. (Boston University) ;
Brandt, A. (University of Texas) ;
Brandt, O. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Brock, R. (Michigan State University) ;
Brooijmans, G. (Columbia University) ;
Bross, A. (Fermi National Accelerator Laboratory) ;
Brown, D. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Bu, X. B. (University of Science and Technology of China) ;
Buchholz, D. (Northwestern University) ;
Buehler, M. (University of Virginia) ;
Buescher, V. (Institut für Physik. Universität Mainz) ;
Bunichev, V. (Moscow State University) ;
Burdin, S. (Lancaster University) ;
Burnett, T. H. (University of Washington) ;
Buszello, C. P. (Imperial College London) ;
Calfayan, P. (Ludwig-Maximilians-Universität München) ;
Calpas, B. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Calvet, S. (LAL. Université Paris-Sud. CNRS/IN2P3) ;
Camacho-Pérez, E. (CINVESTAV) ;
Cammin, J. (University of Rochester) ;
Carrasco-Lizarraga, M. A. (CINVESTAV) ;
Carrera, E. (Florida State University) ;
Casey, B. C. K. (Fermi National Accelerator Laboratory) ;
Castilla-Valdez, H. (CINVESTAV) ;
Chakrabarti, S. (State University of New York) ;
Chakraborty, D. (Northern Illinois University) ;
Chan, K. M. (University of Notre Dame) ;
Chandra, A. (Rice University) ;
Chen, G. (University of Kansas) ;
Chevalier-Théry, S. (CEA. Irfu. SPP) ;
Cho, D. K. (Brown University) ;
Cho, S. W. (Korea Detector Laboratory. Korea University) ;
Choi, S. (Korea Detector Laboratory. Korea University) ;
Choudhary, B. (Delhi University) ;
Christoudias, T. (Imperial College London) ;
Cihangir, S. (Fermi National Accelerator Laboratory) ;
Claes, D. (University of Nebraska) ;
Clutter, J. (University of Kansas) ;
Cooke, M. (Fermi National Accelerator Laboratory) ;
Cooper, W. E. (Fermi National Accelerator Laboratory) ;
Corcoran, M. (Rice University) ;
Couderc, F. (CEA. Irfu. SPP) ;
Cousinou, M. C. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Croc, A. (CEA. Irfu. SPP) ;
Cutts, D. (Brown University) ;
Ćwiok, M. (University College Dublin) ;
Das, A. (University of Arizona) ;
Davies, G. (Imperial College London) ;
De, K. (University of Texas) ;
de Jong, S. J. (Radboud University Nijmegen/NIKHEF) ;
De La Cruz-Burelo, E. (CINVESTAV) ;
Déliot, F. (CEA. Irfu. SPP) ;
Demarteau, M. (Fermi National Accelerator Laboratory) ;
Demina, R. (University of Rochester) ;
Denisov, D. (Fermi National Accelerator Laboratory) ;
Denisov, S. P. (Institute for High Energy Physics) ;
Desai, S. (Fermi National Accelerator Laboratory) ;
DeVaughan, K. (University of Nebraska) ;
Diehl, H. T. (Fermi National Accelerator Laboratory) ;
Diesburg, M. (Fermi National Accelerator Laboratory) ;
Dominguez, Aaron (University of Nebraska) ;
Dorland, T. (University of Washington) ;
Dubey, A. (Delhi University) ;
Dudko, L. V. (Moscow State University) ;
Duggan, D. (Rutgers University) ;
Duperrin, A. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Dutt, S. (Panjab University) ;
Dyshkant, A. (Northern Illinois University) ;
Eads, M. (University of Nebraska) ;
Edmunds, D. (Michigan State University) ;
Ellison, J. (University of California Riverside) ;
Elvira, V. D. (Fermi National Accelerator Laboratory) ;
Enari, Y. (LPNHE. Universités Paris VI and VII. CNRS/IN2P3) ;
Eno, S. (University of Maryland) ;
Evans, H. (Indiana University) ;
Evdokimov, A. (Brookhaven National Laboratory) ;
Evdokimov, V. N. (Institute for High Energy Physics) ;
Facini, G. (Northeastern University) ;
Ferapontov, A. V. (Brown University) ;
Ferbel, T. (University of Rochester) ;
Fiedler, F. (Institut für Physik. Universität Mainz) ;
Filthaut, F. (Radboud University Nijmegen/NIKHEF) ;
Fisher, W. (Michigan State University) ;
Fisk, H. E. (Fermi National Accelerator Laboratory) ;
Fortner, M. (Northern Illinois University) ;
Fox, H. (Lancaster University) ;
Fuess, S. (Fermi National Accelerator Laboratory) ;
Gadfort, T. (Brookhaven National Laboratory) ;
Garcia-Bellido, A. (University of Rochester) ;
Gavrilov, V. (Institute for Theoretical and Experimental Physics) ;
Gay, P. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Geist, W. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Geng, W. (Michigan State University) ;
Gerbaudo, D. (Princeton University) ;
Gerber, C. E. (University of Illinois at Chicago) ;
Gershtein, Y. (Rutgers University) ;
Gillberg, D. (York University) ;
Ginther, G. (University of Rochester) ;
Golovanov, G. (Joint Institute for Nuclear Research) ;
Goussiou, A. (University of Washington) ;
Grannis, P. D. (State University of New York) ;
Greder, S. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Greenlee, H. (Fermi National Accelerator Laboratory) ;
Greenwood, Z. D. (Louisiana Tech University) ;
Gregores, E. M. (Universidade Federal do ABC (Brasil)) ;
Grenier, G. (Université de Lyon) ;
Gris, P. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Grivaz, J. F. (LAL. Université Paris-Sud. CNRS/IN2P3) ;
Grohsjean, A. (CEA. Irfu. SPP) ;
Grünendahl, S. (Fermi National Accelerator Laboratory) ;
Grünewald, M. W. (University College Dublin) ;
Guo, F. (State University of New York) ;
Guo, J. (State University of New York) ;
Gutierrez, G. (Fermi National Accelerator Laboratory) ;
Gutierrez, P. (University of Oklahoma) ;
Haas, Andrew (Columbia University) ;
Haefner, P. (Ludwig-Maximilians-Universität München) ;
Hagopian, S. (Florida State University) ;
Haley, J. (Northeastern University) ;
Han, L. (University of Science and Technology of China) ;
Harder, K. (The University of Manchester) ;
Harel, A. (University of Rochester) ;
Hauptman, J. M. (Iowa State University) ;
Hays, J. (Imperial College London) ;
Hebbeker, T. (III. Physikalisches Institut A. RWTH Aachen University) ;
Hedin, D. (Northern Illinois University) ;
Heinson, A. P. (University of California Riverside) ;
Heintz, U. (Brown University) ;
Hensel, C. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Heredia De La Cruz, I (CINVESTAV) ;
Herner, K. (University of Michigan) ;
Hesketh, G. (Northeastern University) ;
Hildreth, M. D. (University of Notre Dame) ;
Hirosky, R. (University of Virginia) ;
Hoang, T. (Florida State University) ;
Hobbs, J. D. (State University of New York) ;
Hoeneisen, B. (Universidad San Francisco de Quito) ;
Hohlfeld, M. (Institut für Physik. Universität Mainz) ;
Hossain, S. (University of Oklahoma) ;
Hu, Y. (State University of New York) ;
Hubacek, Z. (Czech Technical University in Prague) ;
Huske, N. (LPNHE. Universités Paris VI and VII. CNRS/IN2P3) ;
Hynek, V. (Czech Technical University in Prague) ;
Iashvili, I. (State University of New York) ;
Illingworth, R. (Fermi National Accelerator Laboratory) ;
Ito, A. S. (Fermi National Accelerator Laboratory) ;
Jabeen, S. (Brown University) ;
Jaffré, M. (LAL. Université Paris-Sud. CNRS/IN2P3) ;
Jain, S. (State University of New York) ;
Jamin, D. O (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Jesik, R. (Imperial College London) ;
Johns, K. (University of Arizona) ;
Johnson, M. (Fermi National Accelerator Laboratory) ;
Johnston, D. (University of Nebraska) ;
Jonckheere, A. (Fermi National Accelerator Laboratory) ;
Jonsson, P. (Imperial College London) ;
Joshi, J. (Panjab University) ;
Juste Rozas, Aurelio (Fermi National Accelerator Laboratory) ;
Kaadze, K. (Kansas State University) ;
Kajfasz, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Karmanov, D. (Moscow State University) ;
Kasper, P. A. (Fermi National Accelerator Laboratory) ;
Katsanos, I. (University of Nebraska) ;
Kehoe, R. (Southern Methodist University) ;
Kermiche, S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Khalatyan, N. (Fermi National Accelerator Laboratory) ;
Khanov, A. (Oklahoma State University) ;
Kharchilava, A. (State University of New York) ;
Kharzheev, Y. N. (Joint Institute for Nuclear Research) ;
Khatidze, D. (Brown University) ;
Kirby, M. H. (Northwestern University) ;
Kirsch, M. (III. Physikalisches Institut A. RWTH Aachen University) ;
Kohli, J. M. (Panjab University) ;
Kozelov, A. V. (Institute for High Energy Physics) ;
Kraus, J. (Michigan State University) ;
Kumar, A. (State University of New York) ;
Kupco, A. (Center for Particle Physics. Institute of Physics. Academy of Sciences of the Czech Republic) ;
Kurča, T. (Université de Lyon) ;
Kuzmin, V. A. (Moscow State University) ;
Kvita, J. (Charles University. Faculty of Mathematics and Physics. Center for Particle Physics) ;
Lammers, S. (Indiana University) ;
Landsberg, G. (Brown University) ;
Lebrun, P. (Université de Lyon) ;
Lee, H. S. (Korea Detector Laboratory. Korea University) ;
Lee, W. M. (Fermi National Accelerator Laboratory) ;
Lellouch, J. (LPNHE. Universités Paris VI and VII. CNRS/IN2P3) ;
Li, L. (University of California Riverside) ;
Li, Q. Z. (Fermi National Accelerator Laboratory) ;
Lietti, S. M. (Instituto de Física Teórica. Universidade Estadual Paulista) ;
Lim, J. K. (Korea Detector Laboratory. Korea University) ;
Lincoln, D. (Fermi National Accelerator Laboratory) ;
Linnemann, J. (Michigan State University) ;
Lipaev, V. V. (Institute for High Energy Physics) ;
Lipton, R. (Fermi National Accelerator Laboratory) ;
Liu, Y. (University of Science and Technology of China) ;
Liu, Z. (York University) ;
Lobodenko, A. (Petersburg Nuclear Physics Institute) ;
Lokajicek, M. (Center for Particle Physics. Institute of Physics. Academy of Sciences of the Czech Republic) ;
Love, P. (Lancaster University) ;
Lubatti, H. J. (University of Washington) ;
Luna-Garcia, R. (CINVESTAV) ;
Lyon, A. L. (Fermi National Accelerator Laboratory) ;
Maciel, A. K. A. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Mackin, D. (Rice University) ;
Madar, R. (CEA. Irfu. SPP) ;
Magaña-Villalba, R. (CINVESTAV) ;
Malik, S. (University of Nebraska) ;
Malyshev, V. L. (Joint Institute for Nuclear Research) ;
Maravin, Y. (Kansas State University) ;
Martínez-Ortega, J. (CINVESTAV) ;
McCarthy, R. (State University of New York) ;
McGivern, C. L. (University of Kansas) ;
Meijer, M. M. (Radboud University Nijmegen/NIKHEF) ;
Melnitchouk, A. (University of Mississippi) ;
Menezes, D. (Northern Illinois University) ;
Mercadante, P. G. (Universidade Federal do ABC (Brasil)) ;
Merkin, M. (Moscow State University) ;
Meyer, A. (III. Physikalisches Institut A. RWTH Aachen University) ;
Meyer, J. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Mondal, N. K. (Tata Institute of Fundamental Research) ;
Moulik, T. (University of Kansas) ;
Muanza, G. S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Mulhearn, M. (University of Virginia) ;
Nagy, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Naimuddin, M. (Delhi University) ;
Narain, M. (Brown University) ;
Nayyar, R. (Delhi University) ;
Neal, H. A. (University of Michigan) ;
Negret, J. P. (Universidad de los Andes) ;
Neustroev, P. (Petersburg Nuclear Physics Institute) ;
Nilsen, H. (Physikalisches Institut. Universität Freiburg) ;
Novaes, S. F. (Instituto de Física Teórica. Universidade Estadual Paulista) ;
Nunnemann, T. (Ludwig-Maximilians-Universität München) ;
Obrant, G. (Petersburg Nuclear Physics Institute) ;
Onoprienko, D. (Kansas State University) ;
Orduna, J. (CINVESTAV) ;
Osman, N. (Imperial College London) ;
Osta, J. (University of Notre Dame) ;
Otero y Garzón, G. J. (Universidad de Buenos Aires) ;
Owen, M. (The University of Manchester) ;
Padilla, M. (University of California Riverside) ;
Pangilinan, M. (Brown University) ;
Parashar, N. (Purdue University Calumet) ;
Parihar, V. (Brown University) ;
Park, S. K. (Korea Detector Laboratory. Korea University) ;
Parsons, J. (Columbia University) ;
Partridge, R. (Brown University) ;
Parua, N. (Indiana University) ;
Patwa, A. (Brookhaven National Laboratory) ;
Penning, B. (Fermi National Accelerator Laboratory) ;
Perfilov, M. (Moscow State University) ;
Peters, K. (The University of Manchester) ;
Peters, Y. (The University of Manchester) ;
Petrillo, G. (University of Rochester) ;
Pétroff, P. (LAL. Université Paris-Sud. CNRS/IN2P3) ;
Piegaia, R. (Universidad de Buenos Aires) ;
Piper, J. (Michigan State University) ;
Pleier, M. A. (Brookhaven National Laboratory) ;
Podesta-Lerma, P. L. M. (CINVESTAV) ;
Podstavkov, V. M. (Fermi National Accelerator Laboratory) ;
Pol, M. E. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Polozov, P. (Institute for Theoretical and Experimental Physics) ;
Popov, A. V. (Institute for High Energy Physics) ;
Prewitt, M. (Rice University) ;
Price, D. (Indiana University) ;
Protopopescu, S. (Brookhaven National Laboratory) ;
Qian, J. (University of Michigan) ;
Quadt, A. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Quinn, B. (University of Mississippi) ;
Rangel, M. S. (LAL. Université Paris-Sud. CNRS/IN2P3) ;
Ranjan, K. (Delhi University) ;
Ratoff, P. N. (Lancaster University) ;
Razumov, I. (Institute for High Energy Physics) ;
Renkel, P. (Southern Methodist University) ;
Rich, P. (The University of Manchester) ;
Rijssenbeek, M. (State University of New York) ;
Ripp-Baudot, I. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Rizatdinova, F. (Oklahoma State University) ;
Rominsky, M. (Fermi National Accelerator Laboratory) ;
Royon, C. (CEA. Irfu. SPP) ;
Rubinov, P. (Fermi National Accelerator Laboratory) ;
Ruchti, R. (University of Notre Dame) ;
Safronov, G. (Institute for Theoretical and Experimental Physics) ;
Sajot, G. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3. Institut National Polytechnique de Grenoble) ;
Sánchez-Hernández, A. (CINVESTAV) ;
Sanders, M. P. (Ludwig-Maximilians-Universität München) ;
Sanghi, B. (Fermi National Accelerator Laboratory) ;
Santos, A. S. (Instituto de Física Teórica. Universidade Estadual Paulista) ;
Savage, G. (Fermi National Accelerator Laboratory) ;
Sawyer, L. (Louisiana Tech University) ;
Scanlon, T. (Imperial College London) ;
Schaile, D. (Ludwig-Maximilians-Universität München) ;
Schamberger, R. D. (State University of New York) ;
Scheglov, Y. (Petersburg Nuclear Physics Institute) ;
Schellman, H. (Northwestern University) ;
Schliephake, T. (Fachbereich Physik. Bergische Universität Wuppertal) ;
Schlobohm, S. (University of Washington) ;
Schwanenberger, C. (The University of Manchester) ;
Schwienhorst, R. (Michigan State University) ;
Sekaric, J. (University of Kansas) ;
Severini, H. (University of Oklahoma) ;
Shabalina, E. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Shary, V. (CEA. Irfu. SPP) ;
Shchukin, A. A. (Institute for High Energy Physics) ;
Shivpuri, R. K. (Delhi University) ;
Simak, V. (Czech Technical University in Prague) ;
Sirotenko, V. (Fermi National Accelerator Laboratory) ;
Skubic, P. (University of Oklahoma) ;
Slattery, P. (University of Rochester) ;
Smirnov, D. (University of Notre Dame) ;
Snow, G. R. (University of Nebraska) ;
Snow, J. (Langston University) ;
Snyder, S. (Brookhaven National Laboratory) ;
Söldner-Rembold, S. (The University of Manchester) ;
Sonnenschein, L. (III. Physikalisches Institut A. RWTH Aachen University) ;
Sopczak, A. (Lancaster University) ;
Sosebee, M. (University of Texas) ;
Soustruznik, K. (Charles University. Faculty of Mathematics and Physics. Center for Particle Physics) ;
Spurlock, B. (University of Texas) ;
Stark, J. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3. Institut National Polytechnique de Grenoble) ;
Stolin, V. (Institute for Theoretical and Experimental Physics) ;
Stoyanova, D. A. (Institute for High Energy Physics) ;
Strauss, E. (State University of New York) ;
Strauss, M. (University of Oklahoma) ;
Ströhmer, R. (Ludwig-Maximilians-Universität München) ;
Strom, D. (University of Illinois at Chicago) ;
Stutte, L. (Fermi National Accelerator Laboratory) ;
Svoisky, P. (Radboud University Nijmegen/NIKHEF) ;
Takahashi, M. (The University of Manchester) ;
Tanasijczuk, A. (Universidad de Buenos Aires) ;
Taylor, W. (York University) ;
Tiller, B. (Ludwig-Maximilians-Universität München) ;
Titov, M. (CEA. Irfu. SPP) ;
Tokmenin, V. V. (Joint Institute for Nuclear Research) ;
Tsybychev, D. (State University of New York) ;
Tuchming, B. (CEA. Irfu. SPP) ;
Tully, C. (Princeton University) ;
Tuts, P. M. (Columbia University) ;
Unalan, R. (Michigan State University) ;
Uvarov, L. (Petersburg Nuclear Physics Institute) ;
Uvarov, S. (Petersburg Nuclear Physics Institute) ;
Uzunyan, S. (Northern Illinois University) ;
Van Kooten, R. (Indiana University) ;
van Leeuwen, W. M. (FOM-Institute NIKHEF and University of Amsterdam/NIKHEF) ;
Varelas, N. (University of Illinois at Chicago) ;
Varnes, E. W. (University of Arizona) ;
Vasilyev, I. A. (Institute for High Energy Physics) ;
Verdier, P. (Université de Lyon) ;
Vertogradov, L. S. (Joint Institute for Nuclear Research) ;
Verzocchi, M. (Fermi National Accelerator Laboratory) ;
Vesterinen, M. (The University of Manchester) ;
Vilanova, D. (CEA. Irfu. SPP) ;
Vint, P. (Imperial College London) ;
Vokac, P. (Czech Technical University in Prague) ;
Wahl, H. D. (Florida State University) ;
Wang, M. H. L. S. (University of Rochester) ;
Warchol, J. (University of Notre Dame) ;
Watts, G. (University of Washington) ;
Wayne, M. (University of Notre Dame) ;
Weber, G. (Institut für Physik. Universität Mainz) ;
Weber, M. (Fermi National Accelerator Laboratory) ;
Wetstein, M. (University of Maryland) ;
White, A. (University of Texas) ;
Wicke, D. (Institut für Physik. Universität Mainz) ;
Williams, M. R. J. (Lancaster University) ;
Wilson, G. W. (University of Kansas) ;
Wimpenny, S. J. (University of California Riverside) ;
Wobisch, M. (Louisiana Tech University) ;
Wood, D. R. (Northeastern University) ;
Wyatt, T. R. (The University of Manchester) ;
Xie, Y. (Fermi National Accelerator Laboratory) ;
Xu, C. (University of Michigan) ;
Yacoob, S. (Northwestern University) ;
Yamada, R. (Fermi National Accelerator Laboratory) ;
Yang, W. C. (The University of Manchester) ;
Yasuda, T. (Fermi National Accelerator Laboratory) ;
Yatsunenko, Y. A. (Joint Institute for Nuclear Research) ;
Ye, Z. (Fermi National Accelerator Laboratory) ;
Yin, H. (University of Science and Technology of China) ;
Yip, K. (Brookhaven National Laboratory) ;
Yoo, H. D. (Brown University) ;
Youn, S. W. (Fermi National Accelerator Laboratory) ;
Yu, J. (University of Texas) ;
Zelitch, S. (University of Virginia) ;
Zhao, T. (University of Washington) ;
Zhou, B. (University of Michigan) ;
Zhu, J. (State University of New York) ;
Zielinski, M. (University of Rochester) ;
Zieminska, D. (Indiana University) ;
Živković, Lada (Columbia University)
We present the results of a search for the flavor changing neutral current decay B →μμ using 6. 1 fb of pp collisions at s=1. 96 TeV collected by the D0 experiment at the Fermilab Tevatron Collider. [...]
2010 -  10.1016/j.physletb.2010.09.024
Physics letters. B, Vol. 693, issue 5 (Oct. 2010) , p. 539-544
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Measurement of direct photon pair production cross sections in p over(p, ̄) collisions at sqrt(s) = 1.96 TeV
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Abazov, V. M. (Joint Institute for Nuclear Research) ;
Abbott, B. (University of Oklahoma) ;
Abolins, M. (Michigan State University) ;
Acharya, B. S. (Tata Institute of Fundamental Research) ;
Adams, Maurice Lawrence (University of Illinois at Chicago) ;
Adams, Todd (Florida State University) ;
Aguilo, E. (Simon Fraser University) ;
Alexeev, G. D. (Joint Institute for Nuclear Research) ;
Alkhazov, G. (Petersburg Nuclear Physics Institute) ;
Alton, A. (University of Michigan) ;
Alverson, G. (Northeastern University) ;
Alves, Gelio (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Ancu, L. S. (Radboud University Nijmegen. NIKHEF) ;
Aoki, M. (Fermi National Accelerator Laboratory) ;
Arnoud, Y. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3) ;
Arov, M. (Louisiana Tech University) ;
Askew, A. (Florida State University) ;
Åsman, B. (Stockholm University. Stockholm. Sweden. Uppsala University) ;
Atramentov, O. (Rutgers University) ;
Ávila, Carlos (Universidad de los Andes) ;
BackusMayes, J. (University of Washington) ;
Badaud, F. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Bagby, L. (Fermi National Accelerator Laboratory) ;
Baldin, B. (Fermi National Accelerator Laboratory) ;
Bandurin, D. V. (Florida State University) ;
Banerjee, Sw (Tata Institute of Fundamental Research) ;
Barberis, E. (Northeastern University) ;
Barfuss, A. F. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Baringer, P. (University of Kansas) ;
Barreto, J. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Bartlett, J. F. (Fermi National Accelerator Laboratory) ;
Bassler, U. (CEA. Irfu. SPP) ;
Beale, S. (Simon Fraser University) ;
Bean, A. (University of Kansas) ;
Begalli, M. (Universidade do Estado do Rio de Janeiro) ;
Begel, M. (Brookhaven National Laboratory) ;
Belanger-Champagne, C. (Stockholm University. Stockholm. Sweden. Uppsala University) ;
Bellantoni, L. (Fermi National Accelerator Laboratory) ;
Benitez, J. A. (Michigan State University) ;
Beri, S. B. (Panjab University) ;
Bernardi, G. (LPNHE. Universités Paris VI. VII) ;
Bernhard, R. (Physikalisches Institut. Universität Freiburg) ;
Bertram, I. (Lancaster University) ;
Besançon, M. (CEA. Irfu. SPP) ;
Beuselinck, R. (Imperial College London) ;
Bezzubov, V. A. (Institute for High Energy Physics) ;
Bhat, P. C. (Fermi National Accelerator Laboratory) ;
Bhatnagar, V. (Panjab University) ;
Blazey, G. (Northern Illinois University) ;
Blessing, S. (Florida State University) ;
Bloom, K. (University of Nebraska) ;
Boehnlein, A. (Fermi National Accelerator Laboratory) ;
Boline, D. (Boston University) ;
Bolton, T. A. (Kansas State University) ;
Boos, E. E. (Moscow State University) ;
Borissov, G. (Lancaster University) ;
Bose, T. (Boston University) ;
Brandt, A. (University of Texas) ;
Brock, R. (Michigan State University) ;
Brooijmans, G. (Columbia University) ;
Bross, A. (Fermi National Accelerator Laboratory) ;
Brown, D. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Bu, X. B. (University of Science and Technology of China) ;
Buchholz, D. (Northwestern University) ;
Buehler, M. (University of Virginia) ;
Buescher, V. (Institut für Physik. Universität Mainz) ;
Bunichev, V. (Moscow State University) ;
Burdin, S. (Lancaster University) ;
Burnett, T. H. (University of Washington) ;
Buszello, C. P. (Imperial College London) ;
Calfayan, P. (Ludwig-Maximilians-Universität München) ;
Calpas, B. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Calvet, S. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Camacho-Pérez, E. (CINVESTAV) ;
Cammin, J. (University of Rochester) ;
Carrasco-Lizarraga, M. A. (CINVESTAV) ;
Carrera, E. (Florida State University) ;
Casey, B. C. K. (Fermi National Accelerator Laboratory) ;
Castilla-Valdez, H. (CINVESTAV) ;
Chakrabarti, S. (State University of New York) ;
Chakraborty, D. (Northern Illinois University) ;
Chan, K. M. (University of Notre Dame) ;
Chandra, A. (Rice University) ;
Chen, G. (University of Kansas) ;
Chevalier-Théry, S. (CEA. Irfu. SPP) ;
Cho, D. K. (Brown University) ;
Cho, S. W. (Korea Detector Laboratory. Korea University) ;
Choi, S. (SungKyunKwan University) ;
Choudhary, B. (Delhi University) ;
Christoudias, T. (Imperial College London) ;
Cihangir, S. (Fermi National Accelerator Laboratory) ;
Claes, D. (University of Nebraska) ;
Clutter, J. (University of Kansas) ;
Cooke, M. (Fermi National Accelerator Laboratory) ;
Cooper, W. E. (Fermi National Accelerator Laboratory) ;
Corcoran, M. (Rice University) ;
Couderc, F. (CEA. Irfu. SPP) ;
Cousinou, M. C. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Cutts, D. (Brown University) ;
Ćwiok, M. (University College Dublin) ;
Das, A. (University of Arizona) ;
Davies, G. (Imperial College London) ;
De, K. (University of Texas) ;
de Jong, S. J. (Radboud University Nijmegen. NIKHEF) ;
De La Cruz-Burelo, E. (CINVESTAV) ;
DeVaughan, K. (University of Nebraska) ;
Déliot, F. (CEA. Irfu. SPP) ;
Demarteau, M. (Fermi National Accelerator Laboratory) ;
Demina, R. (University of Rochester) ;
Denisov, D. (Fermi National Accelerator Laboratory) ;
Denisov, S. P. (Institute for High Energy Physics) ;
Desai, S. (Fermi National Accelerator Laboratory) ;
Diehl, H. T. (Fermi National Accelerator Laboratory) ;
Diesburg, M. (Fermi National Accelerator Laboratory) ;
Dominguez, Aaron (University of Nebraska) ;
Dorland, T. (University of Washington) ;
Dubey, A. (Delhi University) ;
Dudko, L. V. (Moscow State University) ;
Duflot, L. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Duggan, D. (Rutgers University) ;
Duperrin, A. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Dutt, S. (Panjab University) ;
Dyshkant, A. (Northern Illinois University) ;
Eads, M. (University of Nebraska) ;
Edmunds, D. (Michigan State University) ;
Ellison, J. (University of California Riverside) ;
Elvira, V. D. (Fermi National Accelerator Laboratory) ;
Enari, Y. (LPNHE. Universités Paris VI. VII) ;
Eno, S. (University of Maryland) ;
Evans, H. (Indiana University) ;
Evdokimov, A. (Brookhaven National Laboratory) ;
Evdokimov, V. N. (Institute for High Energy Physics) ;
Facini, G. (Northeastern University) ;
Ferapontov, A. V. (Brown University) ;
Ferbel, T. (University of Rochester) ;
Fiedler, F. (Institut für Physik. Universität Mainz) ;
Filthaut, F. (Radboud University Nijmegen. NIKHEF) ;
Fisher, W. (Michigan State University) ;
Fisk, H. E. (Fermi National Accelerator Laboratory) ;
Fortner, M. (Northern Illinois University) ;
Fox, H. (Lancaster University) ;
Fuess, S. (Fermi National Accelerator Laboratory) ;
Gadfort, T. (Brookhaven National Laboratory) ;
Garcia-Bellido, A. (University of Rochester) ;
Gavrilov, V. (Institute for Theoretical and Experimental Physics) ;
Gay, P. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Geist, W. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Geng, W. (Michigan State University) ;
Gerbaudo, D. (Princeton University) ;
Gerber, C. E. (University of Illinois at Chicago) ;
Gershtein, Y. (Rutgers University) ;
Gillberg, D. (Simon Fraser University) ;
Ginther, G. (University of Rochester) ;
Golovanov, G. (Joint Institute for Nuclear Research) ;
Gómez, B. (Universidad de los Andes) ;
Goussiou, A. (University of Washington) ;
Grannis, P. D. (State University of New York) ;
Greder, S. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Greenlee, H. (Fermi National Accelerator Laboratory) ;
Greenwood, Z. D. (Louisiana Tech University) ;
Gregores, E. M. (Universidade Federal. ABC) ;
Grenier, G. (IPNL. Université Lyon 1. CNRS/IN2P3. Villeurbanne) ;
Gris, P. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Grivaz, J. F. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Grohsjean, A. (CEA. Irfu. SPP) ;
Grünendahl, S. (Fermi National Accelerator Laboratory) ;
Grünewald, M. W. (University College Dublin) ;
Guo, F. (State University of New York) ;
Guo, J. (State University of New York) ;
Gutierrez, G. (Fermi National Accelerator Laboratory) ;
Gutierrez, P. (University of Oklahoma) ;
Haas, Andrew (Columbia University) ;
Haefner, P. (Ludwig-Maximilians-Universität München) ;
Hagopian, S. (Florida State University) ;
Haley, J. (Northeastern University) ;
Hall, I. (Michigan State University) ;
Han, L. (University of Science and Technology of China) ;
Harder, K. (The University of Manchester) ;
Harel, A. (University of Rochester) ;
Hauptman, J. M. (Iowa State University) ;
Hays, J. (Imperial College London) ;
Hebbeker, T. (III. Physikalisches Institut A. RWTH Aachen University) ;
Hedin, D. (Northern Illinois University) ;
Heinson, A. P. (University of California Riverside) ;
Heintz, U. (Brown University) ;
Hensel, C. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Heredia De La Cruz, I (CINVESTAV) ;
Herner, K. (University of Michigan) ;
Hesketh, G. (Northeastern University) ;
Hildreth, M. D. (University of Notre Dame) ;
Hirosky, R. (University of Virginia) ;
Hoang, T. (Florida State University) ;
Hobbs, J. D. (State University of New York) ;
Hoeneisen, B. (Universidad San Francisco de Quito) ;
Hohlfeld, M. (Institut für Physik. Universität Mainz) ;
Hossain, S. (University of Oklahoma) ;
Houben, P. (FOM-Institute NIKHEF. University of Amsterdam. NIKHEF) ;
Hu, Y. (State University of New York) ;
Hubacek, Z. (Czech Technical University in Prague) ;
Huske, N. (LPNHE. Universités Paris VI. VII) ;
Hynek, V. (Czech Technical University in Prague) ;
Iashvili, I. (State University of New York) ;
Illingworth, R. (Fermi National Accelerator Laboratory) ;
Ito, A. S. (Fermi National Accelerator Laboratory) ;
Jabeen, S. (Brown University) ;
Jaffré, M. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Jain, S. (State University of New York) ;
Jamin, D. O (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Jesik, R. (Imperial College London) ;
Johns, K. (University of Arizona) ;
Johnson, C. (Columbia University) ;
Johnson, M. (Fermi National Accelerator Laboratory) ;
Johnston, D. (University of Nebraska) ;
Jonckheere, A. (Fermi National Accelerator Laboratory) ;
Jonsson, P. (Imperial College London) ;
Juste Rozas, Aurelio (Fermi National Accelerator Laboratory) ;
Kajfasz, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Karmanov, D. (Moscow State University) ;
Kasper, P. A. (Fermi National Accelerator Laboratory) ;
Katsanos, I. (University of Nebraska) ;
Kehoe, R. (Southern Methodist University) ;
Kermiche, S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Khalatyan, N. (Fermi National Accelerator Laboratory) ;
Khanov, A. (Oklahoma State University) ;
Kharchilava, A. (State University of New York) ;
Kharzheev, Y. N. (Joint Institute for Nuclear Research) ;
Khatidze, D. (Brown University) ;
Kirby, M. H. (Northwestern University) ;
Kirsch, M. (III. Physikalisches Institut A. RWTH Aachen University) ;
Kohli, J. M. (Panjab University) ;
Kozelov, A. V. (Institute for High Energy Physics) ;
Kraus, J. (Michigan State University) ;
Kumar, A. (State University of New York) ;
Kupco, A. (Center for Particle Physics. Institute of Physics. Academy of Sciences of the Czech Republic) ;
Kurča, T. (IPNL. Université Lyon 1. CNRS/IN2P3. Villeurbanne) ;
Kuzmin, V. A. (Moscow State University) ;
Kvita, J. (Center for Particle Physics. Charles University. Faculty of Mathematics and Physics) ;
Lammers, S. (Indiana University) ;
Landsberg, G. (Brown University) ;
Lebrun, P. (IPNL. Université Lyon 1. CNRS/IN2P3. Villeurbanne) ;
Lee, H. S. (Korea Detector Laboratory. Korea University) ;
Lee, W. M. (Fermi National Accelerator Laboratory) ;
Lellouch, J. (LPNHE. Universités Paris VI. VII) ;
Li, L. (University of California Riverside) ;
Li, Q. Z. (Fermi National Accelerator Laboratory) ;
Lietti, S. M. (Instituto de Física Teórica. Universidade Estadual Paulista) ;
Lim, J. K. (Korea Detector Laboratory. Korea University) ;
Lincoln, D. (Fermi National Accelerator Laboratory) ;
Linnemann, J. (Michigan State University) ;
Lipaev, V. V. (Institute for High Energy Physics) ;
Lipton, R. (Fermi National Accelerator Laboratory) ;
Liu, Y. (University of Science and Technology of China) ;
Liu, Z. (Simon Fraser University) ;
Lobodenko, A. (Petersburg Nuclear Physics Institute) ;
Lokajicek, M. (Center for Particle Physics. Institute of Physics. Academy of Sciences of the Czech Republic) ;
Love, P. (Lancaster University) ;
Lubatti, H. J. (University of Washington) ;
Luna-Garcia, R. (CINVESTAV) ;
Lyon, A. L. (Fermi National Accelerator Laboratory) ;
Maciel, A. K. A. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Mackin, D. (Rice University) ;
Magaña-Villalba, R. (CINVESTAV) ;
Mal, P. K. (University of Arizona) ;
Malik, S. (University of Nebraska) ;
Malyshev, V. L. (Joint Institute for Nuclear Research) ;
Maravin, Y. (Kansas State University) ;
Martínez-Ortega, J. (CINVESTAV) ;
McCarthy, R. (State University of New York) ;
McGivern, C. L. (University of Kansas) ;
Meijer, M. M. (Radboud University Nijmegen. NIKHEF) ;
Melnitchouk, A. (University of Mississippi) ;
Mendoza, L. (Universidad de los Andes) ;
Menezes, D. (Northern Illinois University) ;
Mercadante, P. G. (Universidade Federal. ABC) ;
Merkin, M. (Moscow State University) ;
Meyer, A. (III. Physikalisches Institut A. RWTH Aachen University) ;
Meyer, J. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Mondal, N. K. (Tata Institute of Fundamental Research) ;
Moulik, T. (University of Kansas) ;
Muanza, G. S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Mulhearn, M. (University of Virginia) ;
Nagy, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Naimuddin, M. (Delhi University) ;
Narain, M. (Brown University) ;
Nayyar, R. (Delhi University) ;
Neal, H. A. (University of Michigan) ;
Negret, J. P. (Universidad de los Andes) ;
Neustroev, P. (Petersburg Nuclear Physics Institute) ;
Nilsen, H. (Physikalisches Institut. Universität Freiburg) ;
Novaes, S. F. (Instituto de Física Teórica. Universidade Estadual Paulista) ;
Nunnemann, T. (Ludwig-Maximilians-Universität München) ;
Obrant, G. (Petersburg Nuclear Physics Institute) ;
Onoprienko, D. (Kansas State University) ;
Orduna, J. (CINVESTAV) ;
Osman, N. (Imperial College London) ;
Osta, J. (University of Notre Dame) ;
Otero y Garzón, G. J. (Universidad de Buenos Aires) ;
Owen, M. (The University of Manchester) ;
Padilla, M. (University of California Riverside) ;
Pangilinan, M. (Brown University) ;
Parashar, N. (Purdue University Calumet) ;
Parihar, V. (Brown University) ;
Park, S. J. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Park, S. K. (Korea Detector Laboratory. Korea University) ;
Parsons, J. (Columbia University) ;
Partridge, R. (Brown University) ;
Parua, N. (Indiana University) ;
Patwa, A. (Brookhaven National Laboratory) ;
Penning, B. (Fermi National Accelerator Laboratory) ;
Perfilov, M. (Moscow State University) ;
Peters, K. (The University of Manchester) ;
Peters, Y. (The University of Manchester) ;
Pétroff, P. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Piegaia, R. (Universidad de Buenos Aires) ;
Piper, J. (Michigan State University) ;
Pleier, M. A. (Brookhaven National Laboratory) ;
Podesta-Lerma, P. L. M. (CINVESTAV) ;
Podstavkov, V. M. (Fermi National Accelerator Laboratory) ;
Pol, M. E. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Polozov, P. (Institute for Theoretical and Experimental Physics) ;
Popov, A. V. (Institute for High Energy Physics) ;
Prewitt, M. (Rice University) ;
Price, D. (Indiana University) ;
Protopopescu, S. (Brookhaven National Laboratory) ;
Qian, J. (University of Michigan) ;
Quadt, A. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Quinn, B. (University of Mississippi) ;
Rangel, M. S. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Ranjan, K. (Delhi University) ;
Ratoff, P. N. (Lancaster University) ;
Razumov, I. (Institute for High Energy Physics) ;
Renkel, P. (Southern Methodist University) ;
Rich, P. (The University of Manchester) ;
Rijssenbeek, M. (State University of New York) ;
Ripp-Baudot, I. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Rizatdinova, F. (Oklahoma State University) ;
Rominsky, M. (Fermi National Accelerator Laboratory) ;
Royon, C. (CEA. Irfu. SPP) ;
Rubinov, P. (Fermi National Accelerator Laboratory) ;
Ruchti, R. (University of Notre Dame) ;
Safronov, G. (Institute for Theoretical and Experimental Physics) ;
Sajot, G. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3) ;
Sánchez-Hernández, A. (CINVESTAV) ;
Sanders, M. P. (Ludwig-Maximilians-Universität München) ;
Sanghi, B. (Fermi National Accelerator Laboratory) ;
Savage, G. (Fermi National Accelerator Laboratory) ;
Sawyer, L. (Louisiana Tech University) ;
Scanlon, T. (Imperial College London) ;
Schaile, D. (Ludwig-Maximilians-Universität München) ;
Schamberger, R. D. (State University of New York) ;
Scheglov, Y. (Petersburg Nuclear Physics Institute) ;
Schellman, H. (Northwestern University) ;
Schliephake, T. (Fachbereich Physik. University of Wuppertal) ;
Schlobohm, S. (University of Washington) ;
Schwanenberger, C. (The University of Manchester) ;
Schwienhorst, R. (Michigan State University) ;
Sekaric, J. (University of Kansas) ;
Severini, H. (University of Oklahoma) ;
Shabalina, E. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Shary, V. (CEA. Irfu. SPP) ;
Shchukin, A. A. (Institute for High Energy Physics) ;
Shivpuri, R. K. (Delhi University) ;
Simak, V. (Czech Technical University in Prague) ;
Sirotenko, V. (Fermi National Accelerator Laboratory) ;
Skubic, P. (University of Oklahoma) ;
Slattery, P. (University of Rochester) ;
Smirnov, D. (University of Notre Dame) ;
Snow, G. R. (University of Nebraska) ;
Snow, J. (Langston University) ;
Snyder, S. (Brookhaven National Laboratory) ;
Söldner-Rembold, S. (The University of Manchester) ;
Sonnenschein, L. (III. Physikalisches Institut A. RWTH Aachen University) ;
Sopczak, A. (Lancaster University) ;
Sosebee, M. (University of Texas) ;
Soustruznik, K. (Center for Particle Physics. Charles University. Faculty of Mathematics and Physics) ;
Spurlock, B. (University of Texas) ;
Stark, J. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3) ;
Stolin, V. (Institute for Theoretical and Experimental Physics) ;
Stoyanova, D. A. (Institute for High Energy Physics) ;
Strang, M. A. (State University of New York) ;
Strauss, E. (State University of New York) ;
Strauss, M. (University of Oklahoma) ;
Ströhmer, R. (Ludwig-Maximilians-Universität München) ;
Strom, D. (University of Illinois at Chicago) ;
Stutte, L. (Fermi National Accelerator Laboratory) ;
Svoisky, P. (Radboud University Nijmegen. NIKHEF) ;
Takahashi, M. (The University of Manchester) ;
Tanasijczuk, A. (Universidad de Buenos Aires) ;
Taylor, W. (Simon Fraser University) ;
Tiller, B. (Ludwig-Maximilians-Universität München) ;
Titov, M. (CEA. Irfu. SPP) ;
Tokmenin, V. V. (Joint Institute for Nuclear Research) ;
Tsybychev, D. (State University of New York) ;
Tuchming, B. (CEA. Irfu. SPP) ;
Tully, C. (Princeton University) ;
Tuts, P. M. (Columbia University) ;
Unalan, R. (Michigan State University) ;
Uvarov, L. (Petersburg Nuclear Physics Institute) ;
Uvarov, S. (Petersburg Nuclear Physics Institute) ;
Uzunyan, S. (Northern Illinois University) ;
van Kooten, R. (Indiana University) ;
van Leeuwen, W. M. (FOM-Institute NIKHEF. University of Amsterdam. NIKHEF) ;
Varelas, N. (University of Illinois at Chicago) ;
Varnes, E. W. (University of Arizona) ;
Vasilyev, I. A. (Institute for High Energy Physics) ;
Verdier, P. (IPNL. Université Lyon 1. CNRS/IN2P3. Villeurbanne) ;
Vertogradov, L. S. (Joint Institute for Nuclear Research) ;
Verzocchi, M. (Fermi National Accelerator Laboratory) ;
Vesterinen, M. (The University of Manchester) ;
Vilanova, D. (CEA. Irfu. SPP) ;
Vint, P. (Imperial College London) ;
Vokac, P. (Czech Technical University in Prague) ;
Wahl, H. D. (Florida State University) ;
Wang, M. H. L. S. (University of Rochester) ;
Warchol, J. (University of Notre Dame) ;
Watts, G. (University of Washington) ;
Wayne, M. (University of Notre Dame) ;
Weber, G. (Institut für Physik. Universität Mainz) ;
Weber, M. (Fermi National Accelerator Laboratory) ;
Wetstein, M. (University of Maryland) ;
White, A. (University of Texas) ;
Wicke, D. (Institut für Physik. Universität Mainz) ;
Williams, M. R. J. (Lancaster University) ;
Wilson, G. W. (University of Kansas) ;
Wimpenny, S. J. (University of California Riverside) ;
Wobisch, M. (Louisiana Tech University) ;
Wood, D. R. (Northeastern University) ;
Wyatt, T. R. (The University of Manchester) ;
Xie, Y. (Fermi National Accelerator Laboratory) ;
Xu, C. (University of Michigan) ;
Yacoob, S. (Northwestern University) ;
Yamada, R. (Fermi National Accelerator Laboratory) ;
Yang, W. C. (The University of Manchester) ;
Yasuda, T. (Fermi National Accelerator Laboratory) ;
Yatsunenko, Y. A. (Joint Institute for Nuclear Research) ;
Ye, Z. (Fermi National Accelerator Laboratory) ;
Yin, H. (University of Science and Technology of China) ;
Yip, K. (Brookhaven National Laboratory) ;
Yoo, H. D. (Brown University) ;
Youn, S. W. (Fermi National Accelerator Laboratory) ;
Yu, J. (University of Texas) ;
Zelitch, S. (University of Virginia) ;
Zhao, T. (University of Washington) ;
Zhou, B. (University of Michigan) ;
Zhu, J. (State University of New York) ;
Zielinski, M. (University of Rochester) ;
Zieminska, D. (Indiana University) ;
Živković, Lada (Columbia University)
We present a measurement of direct photon pair production cross sections using 4. 2 fb of data collected with the D0 detector at the Fermilab Tevatron p over(p, ̄) Collider. We measure single differential cross sections as a function of the diphoton mass, the transverse momentum of the diphoton system, the azimuthal angle between the photons, and the polar scattering angle of the photons. [...]
2010 - 10.1016/j.physletb.2010.05.017
Physics letters. B, Vol. 690, issue 2 (June 2010) , p. 108-117
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Dependence of the tt production cross section on the transverse momentum of the top quark
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Abazov, V. M. (Joint Institute for Nuclear Research) ;
Abbott, B. (University of Oklahoma) ;
Abolins, M. (Michigan State University) ;
Acharya, B. S. (Tata Institute of Fundamental Research) ;
Adams, Maurice Lawrence (University of Illinois at Chicago) ;
Adams, T. (Florida State University) ;
Aguilo, E. (York University) ;
Alexeev, G. D. (Joint Institute for Nuclear Research) ;
Alkhazov, G. (Petersburg Nuclear Physics Institute) ;
Alton, A. (Michigan State University) ;
Alverson, G. (Northeastern University) ;
Alves, Gelio (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Ancu, L. S. (Radboud University Nijmegen/NIKHEF) ;
Aoki, M. (Fermi National Accelerator Laboratory) ;
Arnoud, Y. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3. Institut National Polytechnique de Grenoble) ;
Arov, M. (Louisiana Tech University) ;
Askew, A. (Florida State University) ;
Åsman, B. (Uppsala University) ;
Atramentov, O. (Rutgers University) ;
Ávila, Carlos (Universidad de los Andes) ;
BackusMayes, J. (University of Washington) ;
Badaud, F. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Bagby, L. (Fermi National Accelerator Laboratory) ;
Baldin, B. (Fermi National Accelerator Laboratory) ;
Bandurin, D. V. (Kansas State University) ;
Banerjee, Sw (Tata Institute of Fundamental Research) ;
Barberis, E. (Northeastern University) ;
Barfuss, A. F. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Baringer, P. (University of Kansas) ;
Barreto, J. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Bartlett, J. F. (Fermi National Accelerator Laboratory) ;
Bassler, U. (CEA. Irfu. SPP) ;
Bauer, D. (Imperial College London) ;
Beale, S. (York University) ;
Bean, A. (University of Kansas) ;
Begalli, M. (Universidade do Estado do Rio de Janeiro) ;
Begel, M. (Brookhaven National Laboratory) ;
Belanger-Champagne, C. (Uppsala University) ;
Bellantoni, L. (Fermi National Accelerator Laboratory) ;
Benitez, J. A. (Michigan State University) ;
Beri, S. B. (Panjab University) ;
Bernardi, G. (LPNHE. IN2P3/CNRS. Universités Paris VI and VII) ;
Bernhard, R. (Physikalisches Institut. Universität Freiburg) ;
Bertram, I. (Lancaster University) ;
Besançon, M. (CEA. Irfu. SPP) ;
Beuselinck, R. (Imperial College London) ;
Bezzubov, V. A. (Institute for High Energy Physics) ;
Bhat, P. C. (Fermi National Accelerator Laboratory) ;
Bhatnagar, V. (Panjab University) ;
Blazey, G. (Northern Illinois University) ;
Blessing, S. (Florida State University) ;
Bloom, K. (University of Nebraska) ;
Boehnlein, A. (Fermi National Accelerator Laboratory) ;
Boline, D. (Boston University) ;
Bolton, T. A. (Kansas State University) ;
Boos, E. E. (Moscow State University) ;
Borissov, G. (Lancaster University) ;
Bose, T. (Boston University) ;
Brandt, A. (University of Texas) ;
Brock, R. (Michigan State University) ;
Brooijmans, G. (Columbia University) ;
Bross, A. (Fermi National Accelerator Laboratory) ;
Brown, D. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Bu, X. B. (University of Science and Technology of China) ;
Buchholz, D. (Northwestern University) ;
Buehler, M. (University of Virginia) ;
Buescher, V. (Institut für Physik. Universität Mainz) ;
Bunichev, V. (Moscow State University) ;
Burdin, S. (Lancaster University) ;
Burnett, T. H. (University of Washington) ;
Buszello, C. P. (Imperial College London) ;
Calfayan, P. (Ludwig-Maximilians-Universität München) ;
Calpas, B. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Calvet, S. (LAL. IN2P3/CNRS. Université Paris-Sud) ;
Camacho-Pérez, E. (CINVESTAV) ;
Cammin, J. (University of Rochester) ;
Carrasco-Lizarraga, M. A. (CINVESTAV) ;
Carrera, E. (Florida State University) ;
Casey, B. C. K. (Fermi National Accelerator Laboratory) ;
Castilla-Valdez, H. (CINVESTAV) ;
Chakrabarti, S. (State University of New York) ;
Chakraborty, D. (Northern Illinois University) ;
Chan, K. M. (University of Notre Dame) ;
Chandra, A. (Indiana University) ;
Cheu, E. (University of Arizona) ;
Chevalier-Théry, S. (CEA. Irfu. SPP) ;
Cho, D. K. (Boston University) ;
Cho, S. W. (Korea Detector Laboratory. Korea University) ;
Choi, S. (SungKyunKwan University) ;
Choudhary, B. (Delhi University) ;
Christoudias, T. (Imperial College London) ;
Cihangir, S. (Fermi National Accelerator Laboratory) ;
Claes, D. (University of Nebraska) ;
Clutter, J. (University of Kansas) ;
Cooke, M. (Fermi National Accelerator Laboratory) ;
Cooper, W. E. (Fermi National Accelerator Laboratory) ;
Corcoran, M. (Rice University) ;
Couderc, F. (CEA. Irfu. SPP) ;
Cousinou, M. C. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Cutts, D. (Brown University) ;
Ćwiok, M. (University College Dublin) ;
Das, A. (University of Arizona) ;
Davies, G. (Imperial College London) ;
De, K. (University of Texas) ;
de Jong, S. J. (Radboud University Nijmegen/NIKHEF) ;
De La Cruz-Burelo, E. (CINVESTAV) ;
DeVaughan, K. (University of Nebraska) ;
Déliot, F. (CEA. Irfu. SPP) ;
Demarteau, M. (Fermi National Accelerator Laboratory) ;
Demina, R. (University of Rochester) ;
Denisov, D. (Fermi National Accelerator Laboratory) ;
Denisov, S. P. (Institute for High Energy Physics) ;
Desai, S. (Fermi National Accelerator Laboratory) ;
Diehl, H. T. (Fermi National Accelerator Laboratory) ;
Diesburg, M. (Fermi National Accelerator Laboratory) ;
Dominguez, Aaron (University of Nebraska) ;
Dorland, T. (University of Washington) ;
Dubey, A. (Delhi University) ;
Dudko, L. V. (Moscow State University) ;
Duflot, L. (LAL. IN2P3/CNRS. Université Paris-Sud) ;
Duggan, D. (Rutgers University) ;
Duperrin, A. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Dutt, S. (Panjab University) ;
Dyshkant, A. (Northern Illinois University) ;
Eads, M. (University of Nebraska) ;
Edmunds, D. (Michigan State University) ;
Ellison, J. (University of California) ;
Elvira, V. D. (Fermi National Accelerator Laboratory) ;
Enari, Y. (LPNHE. IN2P3/CNRS. Universités Paris VI and VII) ;
Eno, S. (University of Maryland) ;
Evans, H. (Indiana University) ;
Evdokimov, A. (Brookhaven National Laboratory) ;
Evdokimov, V. N. (Institute for High Energy Physics) ;
Facini, G. (Northeastern University) ;
Ferapontov, A. V. (Brown University) ;
Ferbel, T. (University of Rochester) ;
Fiedler, F. (Institut für Physik. Universität Mainz) ;
Filthaut, F. (Radboud University Nijmegen/NIKHEF) ;
Fisher, W. (Michigan State University) ;
Fisk, H. E. (Fermi National Accelerator Laboratory) ;
Fortner, M. (Northern Illinois University) ;
Fox, H. (Lancaster University) ;
Fuess, S. (Fermi National Accelerator Laboratory) ;
Gadfort, T. (Brookhaven National Laboratory) ;
Galea, C. F. (Radboud University Nijmegen/NIKHEF) ;
Garcia-Bellido, A. (University of Rochester) ;
Gavrilov, V. (Institute for Theoretical and Experimental Physics) ;
Gay, P. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Geist, W. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Geng, W. (Michigan State University) ;
Gerbaudo, D. (Princeton University) ;
Gerber, C. E. (University of Illinois at Chicago) ;
Gershtein, Y. (Rutgers University) ;
Gillberg, D. (York University) ;
Ginther, G. (University of Rochester) ;
Golovanov, G. (Joint Institute for Nuclear Research) ;
Gómez, B. (Universidad de los Andes) ;
Goussiou, A. (University of Washington) ;
Grannis, P. D. (State University of New York) ;
Greder, S. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Greenlee, H. (Fermi National Accelerator Laboratory) ;
Greenwood, Z. D. (Louisiana Tech University) ;
Gregores, E. M. (Universidade Federal do ABC (Brasil)) ;
Grenier, G. (Université de Lyon) ;
Gris, P. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Grivaz, J. F. (LAL. IN2P3/CNRS. Université Paris-Sud) ;
Grohsjean, A. (CEA. Irfu. SPP) ;
Grünendahl, S. (Fermi National Accelerator Laboratory) ;
Grünewald, M. W. (University College Dublin) ;
Guo, F. (State University of New York) ;
Guo, J. (State University of New York) ;
Gutierrez, G. (Fermi National Accelerator Laboratory) ;
Gutierrez, P. (University of Oklahoma) ;
Haas, Andrew (Columbia University) ;
Haefner, P. (Ludwig-Maximilians-Universität München) ;
Hagopian, S. (Florida State University) ;
Haley, J. (Northeastern University) ;
Hall, I. (Michigan State University) ;
Han, L. (University of Science and Technology of China) ;
Harder, K. (The University of Manchester) ;
Harel, A. (University of Rochester) ;
Hauptman, J. M. (Iowa State University) ;
Hays, J. (Imperial College London) ;
Hebbeker, T. (III. Physikalisches Institut A. RWTH Aachen University) ;
Hedin, D. (Northern Illinois University) ;
Hegeman, J. G. (FOM-Institute NIKHEF. University of Amsterdam/NIKHEF) ;
Heinson, A. P. (University of California) ;
Heintz, U. (Brown University) ;
Hensel, C. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Heredia De La Cruz, I (CINVESTAV) ;
Herner, K. (University of Michigan) ;
Hesketh, G. (Northeastern University) ;
Hildreth, M. D. (University of Notre Dame) ;
Hirosky, R. (University of Virginia) ;
Hoang, T. (Florida State University) ;
Hobbs, J. D. (State University of New York) ;
Hoeneisen, B. (Universidad San Francisco de Quito) ;
Hohlfeld, M. (Institut für Physik. Universität Mainz) ;
Hossain, S. (University of Oklahoma) ;
Houben, P. (FOM-Institute NIKHEF. University of Amsterdam/NIKHEF) ;
Hu, Y. (State University of New York) ;
Hubacek, Z. (Czech Technical University in Prague) ;
Huske, N. (LPNHE. IN2P3/CNRS. Universités Paris VI and VII) ;
Hynek, V. (Czech Technical University in Prague) ;
Iashvili, I. (State University of New York) ;
Illingworth, R. (Fermi National Accelerator Laboratory) ;
Ito, A. S. (Fermi National Accelerator Laboratory) ;
Jabeen, S. (Boston University) ;
Jaffré, M. (LAL. IN2P3/CNRS. Université Paris-Sud) ;
Jain, S. (State University of New York) ;
Jamin, D. O (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Jesik, R. (Imperial College London) ;
Johns, K. (University of Arizona) ;
Johnson, C. (Columbia University) ;
Johnson, M. (Fermi National Accelerator Laboratory) ;
Johnston, D. (University of Nebraska) ;
Jonckheere, A. (Fermi National Accelerator Laboratory) ;
Jonsson, P. (Imperial College London) ;
Juste Rozas, Aurelio (Fermi National Accelerator Laboratory) ;
Kajfasz, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Karmanov, D. (Moscow State University) ;
Kasper, P. A. (Fermi National Accelerator Laboratory) ;
Katsanos, I. (University of Nebraska) ;
Kaushik, V. (University of Texas) ;
Kehoe, R. (Southern Methodist University) ;
Kermiche, S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Khalatyan, N. (Fermi National Accelerator Laboratory) ;
Khanov, A. (Oklahoma State University) ;
Kharchilava, A. (State University of New York) ;
Kharzheev, Y. N. (Joint Institute for Nuclear Research) ;
Khatidze, D. (Brown University) ;
Kirby, M. H. (Northwestern University) ;
Kirsch, M. (III. Physikalisches Institut A. RWTH Aachen University) ;
Kohli, J. M. (Panjab University) ;
Kozelov, A. V. (Institute for High Energy Physics) ;
Kraus, J. (Michigan State University) ;
Kumar, A. (State University of New York) ;
Kupco, A. (Center for Particle Physics. Institute of Physics. Academy of Sciences of the Czech Republic) ;
KurČa, T. (Université de Lyon) ;
Kuzmin, V. A. (Moscow State University) ;
Kvita, J. (Center for Particle Physics. Charles University. Faculty of Mathematics and Physics) ;
Lam, D. (University of Notre Dame) ;
Lammers, S. (Indiana University) ;
Landsberg, G. (Brown University) ;
Lebrun, P. (Université de Lyon) ;
Lee, H. S. (Korea Detector Laboratory. Korea University) ;
Lee, W. M. (Fermi National Accelerator Laboratory) ;
Leflat, A. (Moscow State University) ;
Lellouch, J. (LPNHE. IN2P3/CNRS. Universités Paris VI and VII) ;
Li, L. (University of California) ;
Li, Q. Z. (Fermi National Accelerator Laboratory) ;
Lietti, S. M. (Instituto de Física Teórica. Universidade Estadual Paulista) ;
Lim, J. K. (Korea Detector Laboratory. Korea University) ;
Lincoln, D. (Fermi National Accelerator Laboratory) ;
Linnemann, J. (Michigan State University) ;
Lipaev, V. V. (Institute for High Energy Physics) ;
Lipton, R. (Fermi National Accelerator Laboratory) ;
Liu, Y. (University of Science and Technology of China) ;
Liu, Z. (York University) ;
Lobodenko, A. (Petersburg Nuclear Physics Institute) ;
Lokajicek, M. (Center for Particle Physics. Institute of Physics. Academy of Sciences of the Czech Republic) ;
Love, P. (Lancaster University) ;
Lubatti, H. J. (University of Washington) ;
Luna-Garcia, R. (CINVESTAV) ;
Lyon, A. L. (Fermi National Accelerator Laboratory) ;
Maciel, A. K. A. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Mackin, D. (Rice University) ;
Mättig, P. (University of Wuppertal) ;
Magaña-Villalba, R. (CINVESTAV) ;
Mal, P. K. (University of Arizona) ;
Malik, S. (University of Nebraska) ;
Malyshev, V. L. (Joint Institute for Nuclear Research) ;
Maravin, Y. (Kansas State University) ;
Martínez-Ortega, J. (CINVESTAV) ;
McCarthy, R. (State University of New York) ;
McGivern, C. L. (University of Kansas) ;
Meijer, M. M. (Radboud University Nijmegen/NIKHEF) ;
Melnitchouk, A. (University of Mississippi) ;
Mendoza, L. (Universidad de los Andes) ;
Menezes, D. (Northern Illinois University) ;
Mercadante, P. G. (Universidade Federal do ABC (Brasil)) ;
Merkin, M. (Moscow State University) ;
Meyer, A. (III. Physikalisches Institut A. RWTH Aachen University) ;
Meyer, J. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Mondal, N. K. (Tata Institute of Fundamental Research) ;
Moulik, T. (University of Kansas) ;
Muanza, G. S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Mulhearn, M. (University of Virginia) ;
Mundal, O. (Physikalisches Institut. Universität Bonn) ;
Mundim, L. (Universidade do Estado do Rio de Janeiro) ;
Nagy, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Naimuddin, M. (Delhi University) ;
Narain, M. (Brown University) ;
Nayyar, R. (Delhi University) ;
Neal, H. A. (University of Michigan) ;
Negret, J. P. (Universidad de los Andes) ;
Neustroev, P. (Petersburg Nuclear Physics Institute) ;
Nilsen, H. (Physikalisches Institut. Universität Freiburg) ;
Nogima, H. (Universidade do Estado do Rio de Janeiro) ;
Novaes, S. F. (Instituto de Física Teórica. Universidade Estadual Paulista) ;
Nunnemann, T. (Ludwig-Maximilians-Universität München) ;
Obrant, G. (Petersburg Nuclear Physics Institute) ;
Onoprienko, D. (Kansas State University) ;
Orduna, J. (CINVESTAV) ;
Osman, N. (Imperial College London) ;
Osta, J. (University of Notre Dame) ;
Otec, R. (Czech Technical University in Prague) ;
Otero y Garzón, G. J. (Universidad de Buenos Aires) ;
Owen, M. (The University of Manchester) ;
Padilla, M. (University of California) ;
Padley, P. (Rice University) ;
Pangilinan, M. (Brown University) ;
Parashar, N. (Purdue University Calumet) ;
Parihar, V. (Brown University) ;
Park, S. J. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Park, S. K. (Korea Detector Laboratory. Korea University) ;
Parsons, J. (Columbia University) ;
Partridge, R. (Brown University) ;
Parua, N. (Indiana University) ;
Patwa, A. (Brookhaven National Laboratory) ;
Penning, B. (Fermi National Accelerator Laboratory) ;
Perfilov, M. (Moscow State University) ;
Peters, K. (The University of Manchester) ;
Peters, Y. (The University of Manchester) ;
Pétroff, P. (LAL. IN2P3/CNRS. Université Paris-Sud) ;
Piegaia, R. (Universidad de Buenos Aires) ;
Piper, J. (Michigan State University) ;
Pleier, M. A. (Brookhaven National Laboratory) ;
Podesta-Lerma, P. L. M. (CINVESTAV) ;
Podstavkov, V. M. (Fermi National Accelerator Laboratory) ;
Pol, M. E. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Polozov, P. (Institute for Theoretical and Experimental Physics) ;
Popov, A. V. (Institute for High Energy Physics) ;
Prewitt, M. (Rice University) ;
Price, D. (Indiana University) ;
Protopopescu, S. (Brookhaven National Laboratory) ;
Qian, J. (University of Michigan) ;
Quadt, A. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Quinn, B. (University of Mississippi) ;
Rangel, M. S. (LAL. IN2P3/CNRS. Université Paris-Sud) ;
Ranjan, K. (Delhi University) ;
Ratoff, P. N. (Lancaster University) ;
Razumov, I. (Institute for High Energy Physics) ;
Renkel, P. (Southern Methodist University) ;
Rich, P. (The University of Manchester) ;
Rijssenbeek, M. (State University of New York) ;
Ripp-Baudot, I. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Rizatdinova, F. (Oklahoma State University) ;
Robinson, S. (Imperial College London) ;
Rominsky, M. (University of Oklahoma) ;
Royon, C. (CEA. Irfu. SPP) ;
Rubinov, P. (Fermi National Accelerator Laboratory) ;
Ruchti, R. (University of Notre Dame) ;
Safronov, G. (Institute for Theoretical and Experimental Physics) ;
Sajot, G. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3. Institut National Polytechnique de Grenoble) ;
Sánchez-Hernández, A. (CINVESTAV) ;
Sanders, M. P. (Ludwig-Maximilians-Universität München) ;
Sanghi, B. (Fermi National Accelerator Laboratory) ;
Savage, G. (Fermi National Accelerator Laboratory) ;
Sawyer, L. (Louisiana Tech University) ;
Scanlon, T. (Imperial College London) ;
Schaile, D. (Ludwig-Maximilians-Universität München) ;
Schamberger, R. D. (State University of New York) ;
Scheglov, Y. (Petersburg Nuclear Physics Institute) ;
Schellman, H. (Northwestern University) ;
Schliephake, T. (University of Wuppertal) ;
Schlobohm, S. (University of Washington) ;
Schwanenberger, C. (The University of Manchester) ;
Schwienhorst, R. (Michigan State University) ;
Sekaric, J. (University of Kansas) ;
Severini, H. (University of Oklahoma) ;
Shabalina, E. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Shary, V. (CEA. Irfu. SPP) ;
Shchukin, A. A. (Institute for High Energy Physics) ;
Shivpuri, R. K. (Delhi University) ;
Simak, V. (Czech Technical University in Prague) ;
Sirotenko, V. (Fermi National Accelerator Laboratory) ;
Skubic, P. (University of Oklahoma) ;
Slattery, P. (University of Rochester) ;
Smirnov, D. (University of Notre Dame) ;
Snow, G. R. (University of Nebraska) ;
Snow, J. (Langston University) ;
Snyder, S. (Brookhaven National Laboratory) ;
Söldner-Rembold, S. (The University of Manchester) ;
Sonnenschein, L. (III. Physikalisches Institut A. RWTH Aachen University) ;
Sopczak, A. (Lancaster University) ;
Sosebee, M. (University of Texas) ;
Soustruznik, K. (Center for Particle Physics. Charles University. Faculty of Mathematics and Physics) ;
Spurlock, B. (University of Texas) ;
Stark, J. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3. Institut National Polytechnique de Grenoble) ;
Stolin, V. (Institute for Theoretical and Experimental Physics) ;
Stoyanova, D. A. (Institute for High Energy Physics) ;
Strandberg, J. (University of Michigan) ;
Strang, M. A. (State University of New York) ;
Strauss, E. (State University of New York) ;
Strauss, M. (University of Oklahoma) ;
Ströhmer, R. (Ludwig-Maximilians-Universität München) ;
Strom, D. (University of Illinois at Chicago) ;
Stutte, L. (Fermi National Accelerator Laboratory) ;
Svoisky, P. (Radboud University Nijmegen/NIKHEF) ;
Takahashi, M. (The University of Manchester) ;
Tanasijczuk, A. (Universidad de Buenos Aires) ;
Taylor, W. (York University) ;
Tiller, B. (Ludwig-Maximilians-Universität München) ;
Titov, M. (CEA. Irfu. SPP) ;
Tokmenin, V. V. (Joint Institute for Nuclear Research) ;
Tsybychev, D. (State University of New York) ;
Tuchming, B. (CEA. Irfu. SPP) ;
Tully, C. (Princeton University) ;
Tuts, P. M. (Columbia University) ;
Unalan, R. (Michigan State University) ;
Uvarov, L. (Petersburg Nuclear Physics Institute) ;
Uvarov, S. (Petersburg Nuclear Physics Institute) ;
Uzunyan, S. (Northern Illinois University) ;
van den Berg, P. J. (FOM-Institute NIKHEF. University of Amsterdam/NIKHEF) ;
Van Kooten, R. (Indiana University) ;
van Leeuwen, W. M. (FOM-Institute NIKHEF. University of Amsterdam/NIKHEF) ;
Varelas, N. (University of Illinois at Chicago) ;
Varnes, E. W. (University of Arizona) ;
Vasilyev, I. A. (Institute for High Energy Physics) ;
Verdier, P. (Université de Lyon) ;
Vertogradov, L. S. (Joint Institute for Nuclear Research) ;
Verzocchi, M. (Fermi National Accelerator Laboratory) ;
Vesterinen, M. (The University of Manchester) ;
Vilanova, D. (CEA. Irfu. SPP) ;
Vint, P. (Imperial College London) ;
Vokac, P. (Czech Technical University in Prague) ;
Wahl, H. D. (Florida State University) ;
Wang, M. H. L. S. (University of Rochester) ;
Warchol, J. (University of Notre Dame) ;
Watts, G. (University of Washington) ;
Wayne, M. (University of Notre Dame) ;
Weber, G. (Institut für Physik. Universität Mainz) ;
Weber, M. (Fermi National Accelerator Laboratory) ;
Wetstein, M. (University of Maryland) ;
White, A. (University of Texas) ;
Wicke, D. (Institut für Physik. Universität Mainz) ;
Williams, M. R. J. (Lancaster University) ;
Wilson, G. W. (University of Kansas) ;
Wimpenny, S. J. (University of California) ;
Wobisch, M. (Louisiana Tech University) ;
Wood, D. R. (Northeastern University) ;
Wyatt, T. R. (The University of Manchester) ;
Xie, Y. (Fermi National Accelerator Laboratory) ;
Xu, C. (University of Michigan) ;
Yacoob, S. (Northwestern University) ;
Yamada, R. (Fermi National Accelerator Laboratory) ;
Yang, W. C. (The University of Manchester) ;
Yasuda, T. (Fermi National Accelerator Laboratory) ;
Yatsunenko, Y. A. (Joint Institute for Nuclear Research) ;
Ye, Z. (Fermi National Accelerator Laboratory) ;
Yin, H. (University of Science and Technology of China) ;
Yip, K. (Brookhaven National Laboratory) ;
Yoo, H. D. (Brown University) ;
Youn, S. W. (Fermi National Accelerator Laboratory) ;
Yu, J. (University of Texas) ;
Zeitnitz, C. (University of Wuppertal) ;
Zelitch, S. (University of Virginia) ;
Zhao, T. (University of Washington) ;
Zhou, B. (University of Michigan) ;
Zhu, J. (State University of New York) ;
Zielinski, M. (University of Rochester) ;
Zieminska, D. (Indiana University) ;
Živković, Lada (Columbia University) ;
Zutshi, Vishnu V (Northern Illinois University) ;
Zverev, E. G. (Moscow State University)
We present a measurement of the differential cross section for tt events produced in pp collisions at √s=1. 96 TeV as a function of the transverse momentum (pT) of the top quark. The selected events contain a high-pT lepton (γ), a large imbalance in pT, four or more jets with at least one candidate for a b jet, and correspond to 1 fb of integrated luminosity recorded with the D0 detector. [...]
2010 - 10.1016/j.physletb.2010.09.011
Physics letters. B, Vol. 693,issue 5 (Oct. 2010) , p. 515-521
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Measurement of the dijet invariant mass cross section in pp collisions at √s=1.96 TeV
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Abazov, V. M. (Joint Institute for Nuclear Research) ;
Abbott, B. (University of Oklahoma) ;
Abolins, M. (Michigan State University) ;
Acharya, B. S. (Tata Institute of Fundamental Research) ;
Adams, Maurice Lawrence (University of Illinois at Chicago) ;
Adams, Todd (Florida State University) ;
Aguilo, E. (York University) ;
Alexeev, G. D. (Joint Institute for Nuclear Research) ;
Alkhazov, G. (Petersburg Nuclear Physics Institute) ;
Alton, A. (University of Michigan) ;
Alverson, G. (Northeastern University) ;
Alves, Gelio (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Ancu, L. S. (Radboud University Nijmegen/NIKHEF) ;
Aoki, M. (Fermi National Accelerator Laboratory) ;
Arnoud, Y. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3. Institut National Polytechnique de Grenoble) ;
Arov, M. (Louisiana Tech University) ;
Askew, A. (Florida State University) ;
Åsman, B. (Uppsala University) ;
Atramentov, O. (Rutgers University) ;
Ávila, Carlos (Universidad de los Andes) ;
BackusMayes, J. (University of Washington) ;
Badaud, F. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Bagby, L. (Fermi National Accelerator Laboratory) ;
Baldin, B. (Fermi National Accelerator Laboratory) ;
Bandurin, D. V. (Florida State University) ;
Banerjee, Sw (Tata Institute of Fundamental Research) ;
Barberis, E. (Northeastern University) ;
Barfuss, A. F. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Baringer, P. (University of Kansas) ;
Barreto, J. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Bartlett, J. F. (Fermi National Accelerator Laboratory) ;
Bassler, U. (CEA. Irfu. SPP) ;
Beale, S. (York University) ;
Bean, A. (University of Kansas) ;
Begalli, M. (Universidade do Estado do Rio de Janeiro) ;
Begel, M. (Brookhaven National Laboratory) ;
Belanger-Champagne, C. (Uppsala University) ;
Bellantoni, L. (Fermi National Accelerator Laboratory) ;
Benitez, J. A. (Michigan State University) ;
Beri, S. B. (Panjab University) ;
Bernardi, G. (LPNHE. Universités Paris VI and VII. CNRS/IN2P3) ;
Bernhard, R. (Physikalisches Institut. Universität Freiburg) ;
Bertram, I. (Lancaster University) ;
Besançon, M. (CEA. Irfu. SPP) ;
Beuselinck, R. (Imperial College London) ;
Bezzubov, V. A. (Institute for High Energy Physics) ;
Bhat, P. C. (Fermi National Accelerator Laboratory) ;
Bhatnagar, V. (Panjab University) ;
Blazey, G. (Northern Illinois University) ;
Blessing, S. (Florida State University) ;
Bloom, K. (University of Nebraska) ;
Boehnlein, A. (Fermi National Accelerator Laboratory) ;
Boline, D. (Boston University) ;
Bolton, T. A. (Kansas State University) ;
Boos, E. E. (Moscow State University) ;
Borissov, G. (Lancaster University) ;
Bose, T. (Boston University) ;
Brandt, A. (University of Texas) ;
Brock, R. (Michigan State University) ;
Brooijmans, G. (Columbia University) ;
Bross, A. (Fermi National Accelerator Laboratory) ;
Brown, D. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Bu, X. B. (University of Science and Technology of China) ;
Buchholz, D. (Northwestern University) ;
Buehler, M. (University of Virginia) ;
Buescher, V. (Institut für Physik. Universität Mainz) ;
Bunichev, V. (Moscow State University) ;
Burdin, S. (Lancaster University) ;
Burnett, T. H. (University of Washington) ;
Buszello, C. P. (Imperial College London) ;
Calfayan, P. (Ludwig-Maximilians-Universität München) ;
Calpas, B. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Calvet, S. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Camacho-Pérez, E. (CINVESTAV) ;
Cammin, J. (University of Rochester) ;
Carrasco-Lizarraga, M. A. (CINVESTAV) ;
Carrera, E. (Florida State University) ;
Casey, B. C. K. (Fermi National Accelerator Laboratory) ;
Castilla-Valdez, H. (CINVESTAV) ;
Chakrabarti, S. (State University of New York) ;
Chakraborty, D. (Northern Illinois University) ;
Chan, K. M. (University of Notre Dame) ;
Chandra, A. (Rice University) ;
Chen, G. (University of Kansas) ;
Chevalier-Théry, S. (CEA. Irfu. SPP) ;
Cho, D. K. (Brown University) ;
Cho, S. W. (Korea Detector Laboratory. Korea University) ;
Choi, S. (SungKyunKwan University) ;
Choudhary, B. (Delhi University) ;
Christoudias, T. (Imperial College London) ;
Cihangir, S. (Fermi National Accelerator Laboratory) ;
Claes, D. (University of Nebraska) ;
Clutter, J. (University of Kansas) ;
Cooke, M. (Fermi National Accelerator Laboratory) ;
Cooper, W. E. (Fermi National Accelerator Laboratory) ;
Corcoran, M. (Rice University) ;
Couderc, F. (CEA. Irfu. SPP) ;
Cousinou, M. C. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Cutts, D. (Brown University) ;
Ćwiok, M. (University College Dublin) ;
Das, A. (University of Arizona) ;
Davies, G. (Imperial College London) ;
De, K. (University of Texas) ;
de Jong, S. J. (Radboud University Nijmegen/NIKHEF) ;
De La Cruz-Burelo, E. (CINVESTAV) ;
DeVaughan, K. (University of Nebraska) ;
Déliot, F. (CEA. Irfu. SPP) ;
Demarteau, M. (Fermi National Accelerator Laboratory) ;
Demina, R. (University of Rochester) ;
Denisov, D. (Fermi National Accelerator Laboratory) ;
Denisov, S. P. (Institute for High Energy Physics) ;
Desai, S. (Fermi National Accelerator Laboratory) ;
Diehl, H. T. (Fermi National Accelerator Laboratory) ;
Diesburg, M. (Fermi National Accelerator Laboratory) ;
Dominguez, Aaron (University of Nebraska) ;
Dorland, T. (University of Washington) ;
Dubey, A. (Delhi University) ;
Dudko, L. V. (Moscow State University) ;
Duflot, L. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Duggan, D. (Rutgers University) ;
Duperrin, A. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Dutt, S. (Panjab University) ;
Dyshkant, A. (Northern Illinois University) ;
Eads, M. (University of Nebraska) ;
Edmunds, D. (Michigan State University) ;
Ellison, J. (University of California Riverside) ;
Elvira, V. D. (Fermi National Accelerator Laboratory) ;
Enari, Y. (LPNHE. Universités Paris VI and VII. CNRS/IN2P3) ;
Eno, S. (University of Maryland) ;
Evans, H. (Indiana University) ;
Evdokimov, A. (Brookhaven National Laboratory) ;
Evdokimov, V. N. (Institute for High Energy Physics) ;
Facini, G. (Northeastern University) ;
Ferapontov, A. V. (Brown University) ;
Ferbel, T. (University of Rochester) ;
Fiedler, F. (Institut für Physik. Universität Mainz) ;
Filthaut, F. (Radboud University Nijmegen/NIKHEF) ;
Fisher, W. (Michigan State University) ;
Fisk, H. E. (Fermi National Accelerator Laboratory) ;
Fortner, M. (Northern Illinois University) ;
Fox, H. (Lancaster University) ;
Fuess, S. (Fermi National Accelerator Laboratory) ;
Gadfort, T. (Brookhaven National Laboratory) ;
Garcia-Bellido, A. (University of Rochester) ;
Gavrilov, V. (Institute for Theoretical and Experimental Physics) ;
Gay, P. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Geist, W. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Geng, W. (Michigan State University) ;
Gerbaudo, D. (Princeton University) ;
Gerber, C. E. (University of Illinois at Chicago) ;
Gershtein, Y. (Rutgers University) ;
Gillberg, D. (York University) ;
Ginther, G. (University of Rochester) ;
Golovanov, G. (Joint Institute for Nuclear Research) ;
Gómez, B. (Universidad de los Andes) ;
Goussiou, A. (University of Washington) ;
Grannis, P. D. (State University of New York) ;
Greder, S. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Greenlee, H. (Fermi National Accelerator Laboratory) ;
Greenwood, Z. D. (Louisiana Tech University) ;
Gregores, E. M. (Universidade Federal do ABC (Brasil)) ;
Grenier, G. (Université de Lyon) ;
Gris, P. (LPC. Université Blaise Pascal. CNRS/IN2P3) ;
Grivaz, J. F. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Grohsjean, A. (CEA. Irfu. SPP) ;
Grünendahl, S. (Fermi National Accelerator Laboratory) ;
Grünewald, M. W. (University College Dublin) ;
Guo, F. (State University of New York) ;
Guo, J. (State University of New York) ;
Gutierrez, G. (Fermi National Accelerator Laboratory) ;
Gutierrez, P. (University of Oklahoma) ;
Haas, Andrew (Columbia University) ;
Haefner, P. (Ludwig-Maximilians-Universität München) ;
Hagopian, S. (Florida State University) ;
Haley, J. (Northeastern University) ;
Hall, I. (Michigan State University) ;
Han, L. (University of Science and Technology of China) ;
Harder, K. (The University of Manchester) ;
Harel, A. (University of Rochester) ;
Hauptman, J. M. (Iowa State University) ;
Hays, J. (Imperial College London) ;
Hebbeker, T. (III. Physikalisches Institut A. RWTH Aachen University) ;
Hedin, D. (Northern Illinois University) ;
Heinson, A. P. (University of California Riverside) ;
Heintz, U. (Brown University) ;
Hensel, C. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Heredia De La Cruz, I (CINVESTAV) ;
Herner, K. (University of Michigan) ;
Hesketh, G. (Northeastern University) ;
Hildreth, M. D. (University of Notre Dame) ;
Hirosky, R. (University of Virginia) ;
Hoang, T. (Florida State University) ;
Hobbs, J. D. (State University of New York) ;
Hoeneisen, B. (Universidad San Francisco de Quito) ;
Hohlfeld, M. (Institut für Physik. Universität Mainz) ;
Hossain, S. (University of Oklahoma) ;
Houben, P. (FOM-Institute NIKHEF and University of Amsterdam/NIKHEF) ;
Hu, Y. (State University of New York) ;
Hubacek, Z. (Czech Technical University in Prague) ;
Huske, N. (LPNHE. Universités Paris VI and VII. CNRS/IN2P3) ;
Hynek, V. (Czech Technical University in Prague) ;
Iashvili, I. (State University of New York) ;
Illingworth, R. (Fermi National Accelerator Laboratory) ;
Ito, A. S. (Fermi National Accelerator Laboratory) ;
Jabeen, S. (Brown University) ;
Jaffré, M. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Jain, S. (State University of New York) ;
Jamin, D. O (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Jesik, R. (Imperial College London) ;
Johns, K. (University of Arizona) ;
Johnson, C. (Columbia University) ;
Johnson, M. (Fermi National Accelerator Laboratory) ;
Johnston, D. (University of Nebraska) ;
Jonckheere, A. (Fermi National Accelerator Laboratory) ;
Jonsson, P. (Imperial College London) ;
Juste Rozas, Aurelio (Fermi National Accelerator Laboratory) ;
Kajfasz, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Karmanov, D. (Moscow State University) ;
Kasper, P. A. (Fermi National Accelerator Laboratory) ;
Katsanos, I. (University of Nebraska) ;
Kehoe, R. (Southern Methodist University) ;
Kermiche, S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Khalatyan, N. (Fermi National Accelerator Laboratory) ;
Khanov, A. (Oklahoma State University) ;
Kharchilava, A. (State University of New York) ;
Kharzheev, Y. N. (Joint Institute for Nuclear Research) ;
Khatidze, D. (Brown University) ;
Kirby, M. H. (Northwestern University) ;
Kirsch, M. (III. Physikalisches Institut A. RWTH Aachen University) ;
Kohli, J. M. (Panjab University) ;
Kozelov, A. V. (Institute for High Energy Physics) ;
Kraus, J. (Michigan State University) ;
Kumar, A. (State University of New York) ;
Kupco, A. (Center for Particle Physics. Institute of Physics. Academy of Sciences of the Czech Republic) ;
Kurča, T. (Université de Lyon) ;
Kuzmin, V. A. (Moscow State University) ;
Kvita, J. (Center for Particle Physics. Charles University. Faculty of Mathematics and Physics) ;
Lammers, S. (Indiana University) ;
Landsberg, G. (Brown University) ;
Lebrun, P. (Université de Lyon) ;
Lee, H. S. (Korea Detector Laboratory. Korea University) ;
Lee, W. M. (Fermi National Accelerator Laboratory) ;
Lellouch, J. (LPNHE. Universités Paris VI and VII. CNRS/IN2P3) ;
Li, L. (University of California Riverside) ;
Li, Q. Z. (Fermi National Accelerator Laboratory) ;
Lietti, S. M. (Instituto de Física Teórica. Universidade Estadual Paulista) ;
Lim, J. K. (Korea Detector Laboratory. Korea University) ;
Lincoln, D. (Fermi National Accelerator Laboratory) ;
Linnemann, J. (Michigan State University) ;
Lipaev, V. V. (Institute for High Energy Physics) ;
Lipton, R. (Fermi National Accelerator Laboratory) ;
Liu, Y. (University of Science and Technology of China) ;
Liu, Z. (York University) ;
Lobodenko, A. (Petersburg Nuclear Physics Institute) ;
Lokajicek, M. (Center for Particle Physics. Institute of Physics. Academy of Sciences of the Czech Republic) ;
Love, P. (Lancaster University) ;
Lubatti, H. J. (University of Washington) ;
Luna-Garcia, R. (CINVESTAV) ;
Lyon, A. L. (Fermi National Accelerator Laboratory) ;
Maciel, A. K. A. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Mackin, D. (Rice University) ;
Magaña-Villalba, R. (CINVESTAV) ;
Mal, P. K. (University of Arizona) ;
Malik, S. (University of Nebraska) ;
Malyshev, V. L. (Joint Institute for Nuclear Research) ;
Maravin, Y. (Kansas State University) ;
Martínez-Ortega, J. (CINVESTAV) ;
McCarthy, R. (State University of New York) ;
McGivern, C. L. (University of Kansas) ;
Meijer, M. M. (Radboud University Nijmegen/NIKHEF) ;
Melnitchouk, A. (University of Mississippi. University) ;
Mendoza, L. (Universidad de los Andes) ;
Menezes, D. (Northern Illinois University) ;
Mercadante, P. G. (Universidade Federal do ABC (Brasil)) ;
Merkin, M. (Moscow State University) ;
Meyer, A. (III. Physikalisches Institut A. RWTH Aachen University) ;
Meyer, J. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Mondal, N. K. (Tata Institute of Fundamental Research) ;
Moulik, T. (University of Kansas) ;
Muanza, G. S. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Mulhearn, M. (University of Virginia) ;
Nagy, E. (CPPM. Aix-Marseille Université. CNRS/IN2P3) ;
Naimuddin, M. (Delhi University) ;
Narain, M. (Brown University) ;
Nayyar, R. (Delhi University) ;
Neal, H. A. (University of Michigan) ;
Negret, J. P. (Universidad de los Andes) ;
Neustroev, P. (Petersburg Nuclear Physics Institute) ;
Nilsen, H. (Physikalisches Institut. Universität Freiburg) ;
Novaes, S. F. (Instituto de Física Teórica. Universidade Estadual Paulista) ;
Nunnemann, T. (Ludwig-Maximilians-Universität München) ;
Obrant, G. (Petersburg Nuclear Physics Institute) ;
Onoprienko, D. (Kansas State University) ;
Orduna, J. (CINVESTAV) ;
Osman, N. (Imperial College London) ;
Osta, J. (University of Notre Dame) ;
Otero y Garzón, G. J. (Universidad de Buenos Aires) ;
Owen, M. (The University of Manchester) ;
Padilla, M. (University of California Riverside) ;
Pangilinan, M. (Brown University) ;
Parashar, N. (Purdue University Calumet) ;
Parihar, V. (Brown University) ;
Park, S. J. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Park, S. K. (Korea Detector Laboratory. Korea University) ;
Parsons, J. (Columbia University) ;
Partridge, R. (Brown University) ;
Parua, N. (Indiana University) ;
Patwa, A. (Brookhaven National Laboratory) ;
Penning, B. (Fermi National Accelerator Laboratory) ;
Perfilov, M. (Moscow State University) ;
Peters, K. (The University of Manchester) ;
Peters, Y. (The University of Manchester) ;
Pétroff, P. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Piegaia, R. (Universidad de Buenos Aires) ;
Piper, J. (Michigan State University) ;
Pleier, M. A. (Brookhaven National Laboratory) ;
Podesta-Lerma, P. L. M. (CINVESTAV) ;
Podstavkov, V. M. (Fermi National Accelerator Laboratory) ;
Pol, M. E. (LAFEX. Centro Brasileiro de Pesquisas Físicas) ;
Polozov, P. (Institute for Theoretical and Experimental Physics) ;
Popov, A. V. (Institute for High Energy Physics) ;
Prewitt, M. (Rice University) ;
Price, D. (Indiana University) ;
Protopopescu, S. (Brookhaven National Laboratory) ;
Qian, J. (University of Michigan) ;
Quadt, A. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Quinn, B. (University of Mississippi. University) ;
Rangel, M. S. (LAL. Université Paris-Sud. IN2P3/CNRS) ;
Ranjan, K. (Delhi University) ;
Ratoff, P. N. (Lancaster University) ;
Razumov, I. (Institute for High Energy Physics) ;
Renkel, P. (Southern Methodist University) ;
Rich, P. (The University of Manchester) ;
Rijssenbeek, M. (State University of New York) ;
Ripp-Baudot, I. (IPHC. Université de Strasbourg. CNRS/IN2P3) ;
Rizatdinova, F. (Oklahoma State University) ;
Rominsky, M. (Fermi National Accelerator Laboratory) ;
Royon, C. (CEA. Irfu. SPP) ;
Rubinov, P. (Fermi National Accelerator Laboratory) ;
Ruchti, R. (University of Notre Dame) ;
Safronov, G. (Institute for Theoretical and Experimental Physics) ;
Sajot, G. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3. Institut National Polytechnique de Grenoble) ;
Sánchez-Hernández, A. (CINVESTAV) ;
Sanders, M. P. (Ludwig-Maximilians-Universität München) ;
Sanghi, B. (Fermi National Accelerator Laboratory) ;
Savage, G. (Fermi National Accelerator Laboratory) ;
Sawyer, L. (Louisiana Tech University) ;
Scanlon, T. (Imperial College London) ;
Schaile, D. (Ludwig-Maximilians-Universität München) ;
Schamberger, R. D. (State University of New York) ;
Scheglov, Y. (Petersburg Nuclear Physics Institute) ;
Schellman, H. (Northwestern University) ;
Schliephake, T. (Fachbereich Physik. University of Wuppertal) ;
Schlobohm, S. (University of Washington) ;
Schwanenberger, C. (The University of Manchester) ;
Schwienhorst, R. (Michigan State University) ;
Sekaric, J. (University of Kansas) ;
Severini, H. (University of Oklahoma) ;
Shabalina, E. (II. Physikalisches Institut. Georg-August-Universität Göttingen) ;
Shary, V. (CEA. Irfu. SPP) ;
Shchukin, A. A. (Institute for High Energy Physics) ;
Shivpuri, R. K. (Delhi University) ;
Simak, V. (Czech Technical University in Prague) ;
Sirotenko, V. (Fermi National Accelerator Laboratory) ;
Skubic, P. (University of Oklahoma) ;
Slattery, P. (University of Rochester) ;
Smirnov, D. (University of Notre Dame) ;
Snow, G. R. (University of Nebraska) ;
Snow, J. (Langston University) ;
Snyder, S. (Brookhaven National Laboratory) ;
Söldner-Rembold, S. (The University of Manchester) ;
Sonnenschein, L. (III. Physikalisches Institut A. RWTH Aachen University) ;
Sopczak, A. (Lancaster University) ;
Sosebee, M. (University of Texas) ;
Soustruznik, K. (Center for Particle Physics. Charles University. Faculty of Mathematics and Physics) ;
Spurlock, B. (University of Texas) ;
Stark, J. (LPSC. Université Joseph Fourier Grenoble 1. CNRS/IN2P3. Institut National Polytechnique de Grenoble) ;
Stolin, V. (Institute for Theoretical and Experimental Physics) ;
Stoyanova, D. A. (Institute for High Energy Physics) ;
Strang, M. A. (State University of New York) ;
Strauss, E. (State University of New York) ;
Strauss, M. (University of Oklahoma) ;
Ströhmer, R. (Ludwig-Maximilians-Universität München) ;
Strom, D. (University of Illinois at Chicago) ;
Stutte, L. (Fermi National Accelerator Laboratory) ;
Svoisky, P. (Radboud University Nijmegen/NIKHEF) ;
Takahashi, M. (The University of Manchester) ;
Tanasijczuk, A. (Universidad de Buenos Aires) ;
Taylor, W. (York University) ;
Tiller, B. (Ludwig-Maximilians-Universität München) ;
Titov, M. (CEA. Irfu. SPP) ;
Tokmenin, V. V. (Joint Institute for Nuclear Research) ;
Tsybychev, D. (State University of New York) ;
Tuchming, B. (CEA. Irfu. SPP) ;
Tully, C. (Princeton University) ;
Tuts, P. M. (Columbia University) ;
Unalan, R. (Michigan State University) ;
Uvarov, L. (Petersburg Nuclear Physics Institute) ;
Uvarov, S. (Petersburg Nuclear Physics Institute) ;
Uzunyan, S. (Northern Illinois University) ;
Van Kooten, R. (Indiana University) ;
van Leeuwen, W. M. (FOM-Institute NIKHEF and University of Amsterdam/NIKHEF) ;
Varelas, N. (University of Illinois at Chicago) ;
Varnes, E. W. (University of Arizona) ;
Vasilyev, I. A. (Institute for High Energy Physics) ;
Verdier, P. (Université de Lyon) ;
Vertogradov, L. S. (Joint Institute for Nuclear Research) ;
Verzocchi, M. (Fermi National Accelerator Laboratory) ;
Vesterinen, M. (The University of Manchester) ;
Vilanova, D. (CEA. Irfu. SPP) ;
Vint, P. (Imperial College London) ;
Vokac, P. (Czech Technical University in Prague) ;
Wahl, H. D. (Florida State University) ;
Wang, M. H. L. S. (University of Rochester) ;
Warchol, J. (University of Notre Dame) ;
Watts, G. (University of Washington) ;
Wayne, M. (University of Notre Dame) ;
Weber, G. (Institut für Physik. Universität Mainz) ;
Weber, M. (Fermi National Accelerator Laboratory) ;
Wetstein, M. (University of Maryland) ;
White, A. (University of Texas) ;
Wicke, D. (Institut für Physik. Universität Mainz) ;
Williams, M. R. J. (Lancaster University) ;
Wilson, G. W. (University of Kansas) ;
Wimpenny, S. J. (University of California Riverside) ;
Wobisch, M. (Louisiana Tech University) ;
Wood, D. R. (Northeastern University) ;
Wyatt, T. R. (The University of Manchester) ;
Xie, Y. (Fermi National Accelerator Laboratory) ;
Xu, C. (University of Michigan) ;
Yacoob, S. (Northwestern University) ;
Yamada, R. (Fermi National Accelerator Laboratory) ;
Yang, W. C. (The University of Manchester) ;
Yasuda, T. (Fermi National Accelerator Laboratory) ;
Yatsunenko, Y. A. (Joint Institute for Nuclear Research) ;
Ye, Z. (Fermi National Accelerator Laboratory) ;
Yin, H. (University of Science and Technology of China) ;
Yip, K. (Brookhaven National Laboratory) ;
Yoo, H. D. (Brown University) ;
Youn, S. W. (Fermi National Accelerator Laboratory) ;
Yu, J. (University of Texas) ;
Zelitch, S. (University of Virginia) ;
Zhao, T. (University of Washington) ;
Zhou, B. (University of Michigan) ;
Zhu, J. (State University of New York) ;
Zielinski, M. (University of Rochester) ;
Zieminska, D. (Indiana University) ;
Živković, Lada (Columbia University)
The inclusive dijet production double differential cross section as a function of the dijet invariant mass and of the largest absolute rapidity of the two jets with the largest transverse momentum in an event is measured in pp collisions at √s=1. [...]
2010 - 10.1016/j.physletb.2010.09.013
Physics letters. B, Vol. 693, issue 5 (Oct. 2010) , p. 531-538
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9 p, 1.6 MB |
Low growth resilience to drought is related to future mortality risk in trees
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DeSoto, Lucía (University of Coimbra) ;
Cailleret, Maxime (Swiss Federal Institute for Forest) ;
Sterck, Frank (Wageningen University) ;
Jansen, Steven (Ulm University) ;
Kramer, Koen (Land Life Company) ;
Robert, Elisabeth M. R. (Centre de Recerca Ecològica i d'Aplicacions Forestals) ;
Aakala, Tuomas (University of Helsinki) ;
Amoroso, Mariano M. (Universidad Nacional de Río Negro) ;
Bigler, Christof (ETH Zürich) ;
Camarero, Jesús Julio (Spanish National Research Council) ;
Čufar, Katarina (Univerza V Ljubljani) ;
Gea-Izquierdo, Guillermo (Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (Espanya)) ;
Gillner, Sten (TU Dresden) ;
Haavik, Laurel J. (USDA Forest Service) ;
Hereş, Ana-Maria (Basque Centre for Climate Change (Bilbao)) ;
Kane, Jeffrey Michael (Humboldt State University) ;
Kharuk, Vyacheslav I. (Siberian Federal University) ;
Kitzberger, Thomas (Universidad Nacional del Comahue) ;
Klein, Tamir (Weizmann Institute of Science (Israel)) ;
Levanič, Tom (Slovenian Forestry Institute) ;
Linares Calderón, Juan Carlos (Pablo de Olavide University) ;
Mäkinen, Harri (Natural Resources Institute Finland) ;
Oberhuber, Walter (University of Innsbruck) ;
Papadopoulos, Andreas (Agricultural University of Athens) ;
Rohner, Brigitte (ETH Zürich) ;
Sangüesa-Barreda, Gabriel (University of Valladolid) ;
Stojanovic, Dejan B. (University of Novi Sad) ;
Suarez, Maria Laura (Grupo Ecología Forestal, CONICET - INTA) ;
Villalba, Ricardo (Instituto Argentino de Nivología Glaciología y Ciencias Ambientales) ;
Martínez Vilalta, Jordi 1975- (Universitat Autònoma de Barcelona. Departament de Biologia Animal, de Biologia Vegetal i d'Ecologia)
Severe droughts have the potential to reduce forest productivity and trigger tree mortality. Most trees face several drought events during their life and therefore resilience to dry conditions may be crucial to long-term survival. [...]
2020 - 10.1038/s41467-020-14300-5
Nature communications, Vol. 11 (January 2020) , art. 545
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4 p, 102.5 KB |
Aprofundiment en Ergonomia [103007]
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Guimet Villalba, Raul ;
Universitat Autònoma de Barcelona.
Facultat de Medicina
Aquesta assignatura pretén assentar i profunditzar les bases de coneixement i avaluació, de l'entorn social i laboral de l'individu i donar eines de prevenció, mesura i tractament de problemes relacionats amb ergonomia i la seva utilitat a la vida cotidiana .
This subject intends to establish and deepen the knowledge and evaluation bases, of the social environment and the work of the individual and giving tools for the prevention, measurement and treatment of problems related to ergonomics and its usefulness in everyday life.
Esta asignatura pretende asentar y profundizar las bases de conocimiento y evaluación del entorno social y laboral del individuo y darle herramientas de prevención, medida y tratamiento de problemas relacionados con la ergonomía y su utilidad en la vida cotidiana.
2021-22
Grau en Fisioteràpia [961]
3 documentos
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9.
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196 p, 12.5 MB |
App de viatges UFly (multiplataforma)
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Jalil Beida Lahsen, Mohamed Lamin ;
Villalba i Fuentes, Roger ;
Santana Cruz, Ernesto Emmanuel, dir. (Universitat Autònoma de Barcelona. Departament de Telecomunicació i Enginyeria de Sistemes) ;
Universitat Autònoma de Barcelona.
Escola d'Enginyeria
Les aplicacions mòbils suposen una gran eina per satisfer necessitats que beneficien als seus usuaris. Davant d'una situació on les companyies aèries son capaces d'oferir als seus clients ofertes personalitzades per tal de maximitzar el seu benefici, gràcies a eines com les cookies, es planteja el desenvolupament d'una aplicació multiplataforma, on siguin els propis usuaris, els que estableix el seu pressupost per tal d'aprofitar la estacionalitat que experimenten els preus dels bitllets d'avió.
Las aplicaciones móviles suponen una gran herramienta para satisfacer necesidades que benefician a sus usuarios. Ante una situación donde las compañías aéreas son capaces de ofrecer a sus clientes ofertas personalizadas a fin de maximizar su beneficio, gracias a herramientas como las cookies, se plantea el desarrollo de una aplicación multiplataforma, donde sean los propios usuarios, los que establezcan su presupuesto para aprovechar la estacionalidad que experimentan los precios de los billetes de avión.
Mobile applications are increasingly present in our day to day. They are a great tool to meet needs that benefit its users. Faced with a situation where airlines are able to offer their customers personalized offers in order to maximize their profit, thanks to tools like cookies. [...]
2020
Pla d' Estudis de Gestió Aeronàutica [829]
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10.
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196 p, 12.5 MB |
App viatges UFly (multiplataforma)
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Villalba Fuentes, Roger ;
Santana Cruz, Ernesto Emmanuel, dir. (Universitat Autònoma de Barcelona. Departament de Telecomunicació i Enginyeria de Sistemes) ;
Universitat Autònoma de Barcelona.
Escola d'Enginyeria
Les aplicacions mòbils suposen una gran eina per satisfer necessitats que beneficien als seus usuaris. Davant d'una situació on les companyies aèries son capaces d'oferir als seus clients ofertes personalitzades per tal de maximitzar el seu benefici, gràcies a eines com les cookies, es planteja el desenvolupament d'una aplicació multiplataforma, on siguin els propis usuaris, els que estableix el seu pressupost per tal d'aprofitar la estacionalitat que experimenten els preus dels bitllets d'avió.
Las aplicaciones móviles suponen una gran herramienta para satisfacer necesidades que benefician a sus usuarios. Ante una situación donde las compañías aéreas son capaces de ofrecer a sus clientes ofertas personalizadas a fin de maximizar su beneficio, gracias a herramientas como las cookies, se plantea el desarrollo de una aplicación multiplataforma, donde sean los propios usuarios, los que establezcan su presupuesto para aprovechar la estacionalidad que experimentan los precios de los billetes de avión.
Mobile applications are increasingly present in our day to day. They are a great tool to meet needs that benefit its users. Faced with a situation where airlines are able to offer their customers personalized offers in order to maximize their profit, thanks to tools like cookies. [...]
2020
Pla d' Estudis de Gestió Aeronàutica [829]
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