Results overview: Found 3 records in 0.02 seconds.
Articles, 3 records found
Articles 3 records found  
1.
11 p, 2.8 MB Field effect enhancement in buffered quantum nanowire networks / Krizek, Filip (Center for Quantum Devices and Station Q Copenhagen) ; Sestoft, Joachim E. (Center for Quantum Devices and Station Q Copenhagen) ; Aseev, Pavel (Delft University of Technology) ; Martí-Sánchez, Sara (Institut Català de Nanociència i Nanotecnologia) ; Vaitiekenas, Saulius (Center for Quantum Devices and Station Q Copenhagen) ; Casparis, Lucas (Center for Quantum Devices and Station Q Copenhagen) ; Khan, Sabbir A. (Center for Quantum Devices and Station Q Copenhagen) ; Liu, Yu (Center for Quantum Devices and Station Q Copenhagen) ; Stankevič, Tomas (Center for Quantum Devices and Station Q Copenhagen) ; Whiticar, A.M. (Center for Quantum Devices and Station Q Copenhagen) ; Fursina, Alexandra (Delft University of Technology) ; Boekhout, Frenk (QuTech and Netherlands Organization for Applied Scientific Research) ; Koops, René (QuTech and Netherlands Organization for Applied Scientific Research) ; Uccelli, Emanuele (QuTech and Netherlands Organization for Applied Scientific Research) ; Kouwenhoven, Leo P. (Delft University of Technology) ; Marcus, Charles M. (Center for Quantum Devices and Station Q Copenhagen) ; Arbiol i Cobos, Jordi (Institut Català de Nanociència i Nanotecnologia) ; Krogstrup, Peter (Center for Quantum Devices and Station Q Copenhagen)
III-V semiconductor nanowires have shown great potential in various quantum transport experiments. However, realizing a scalable high-quality nanowire-based platform that could lead to quantum information applications has been challenging. [...]
2018 - 10.1103/PhysRevMaterials.2.093401
Physical review materials, Vol. 2, Issue 9 (September 2018) , art. 93401  
2.
8 p, 627.7 KB Selective-Area-Grown Semiconductor-Superconductor Hybrids : A Basis for Topological Networks / Vaitiekenas, Saulius (University of Copenhagen) ; Whiticar, A.M. (University of Copenhagen) ; Deng, M.T. (University of Copenhagen) ; Krizek, Filip (University of Copenhagen) ; Sestoft, Joachim E. (University of Copenhagen) ; Palmstrøm, C.J. (University of California. Materials Department) ; Martí-Sánchez, Sara (Institut Català de Nanociència i Nanotecnologia) ; Arbiol i Cobos, Jordi (Institut Català de Nanociència i Nanotecnologia) ; Krogstrup, Peter (University of Copenhagen) ; Casparis, Lucas (University of Copenhagen) ; Marcus, Charles M. (University of Copenhagen)
We introduce selective area grown hybrid InAs/Al nanowires based on molecular beam epitaxy, allowing arbitrary semiconductor-superconductor networks containing loops and branches. Transport reveals a hard induced gap and unpoisoned 2e-periodic Coulomb blockade, with temperature dependent 1e features in agreement with theory. [...]
2018 - 10.1103/PhysRevLett.121.147701
Physical review letters, Vol. 121, Issue 14 (October 2018) , art. 147701  
3.
10 p, 8.1 MB Selectivity Map for Molecular Beam Epitaxy of Advanced III-V Quantum Nanowire Networks / Aseev, Pavel (Delft University of Technology) ; Fursina, Alexandra (Delft University of Technology) ; Boekhout, Frenk (QuTech and Netherlands Organization for Applied Scientific Research) ; Krizek, Filip (University of Copenhagen) ; Sestoft, Joachim E. (University of Copenhagen) ; Borsoi, Francesco (Delft University of Technology) ; Heedt, Sebastian (Delft University of Technology) ; Wang, Guanzhong (Delft University of Technology) ; Binci, Luca (Delft University of Technology) ; Martí-Sánchez, Sara (Institut Català de Nanociència i Nanotecnologia) ; Swoboda, Timm (Institut Català de Nanociència i Nanotecnologia) ; Koops, René (QuTech and Netherlands Organization for Applied Scientific Research) ; Uccelli, Emanuele (QuTech and Netherlands Organization for Applied Scientific Research) ; Arbiol i Cobos, Jordi (Institut Català de Nanociència i Nanotecnologia) ; Krogstrup, Peter (University of Copenhagen) ; Kouwenhoven, Leo P. (Delft University of Technology) ; Caroff, Philippe (Delft University of Technology)
Selective-area growth is a promising technique for enabling of the fabrication of the scalable III-V nanowire networks required to test proposals for Majorana-based quantum computing devices. However, the contours of the growth parameter window resulting in selective growth remain undefined. [...]
2019 - 10.1021/acs.nanolett.8b03733
Nano letters, Vol. 19, Issue 1 (January 2019) , p. 218-227  

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