Electron transport through double quantum dots WG Van der Wiel, S De Franceschi, JM Elzerman, T Fujisawa, S Tarucha, ... Reviews of modern physics 75 (1), 1, 2002 | 2267 | 2002 |
The Kondo effect in the unitary limit WG Van der Wiel, SD Franceschi, T Fujisawa, JM Elzerman, S Tarucha, ... science 289 (5487), 2105-2108, 2000 | 1006 | 2000 |
Kondo effect in an integer-spin quantum dot S Sasaki, S De Franceschi, JM Elzerman, WG Van der Wiel, M Eto, ... Nature 405 (6788), 764-767, 2000 | 647 | 2000 |
A CMOS silicon spin qubit R Maurand, X Jehl, D Kotekar-Patil, A Corna, H Bohuslavskyi, R Laviéville, ... Nature communications 7 (1), 13575, 2016 | 632 | 2016 |
Spin-resolved Andreev levels and parity crossings in hybrid superconductor–semiconductor nanostructures EJH Lee, X Jiang, M Houzet, R Aguado, CM Lieber, S De Franceschi Nature nanotechnology 9 (1), 79-84, 2014 | 615 | 2014 |
Tunable supercurrent through semiconductor nanowires YJ Doh, JA van Dam, AL Roest, EPAM Bakkers, LP Kouwenhoven, ... science 309 (5732), 272-275, 2005 | 604 | 2005 |
Few-electron quantum dot circuit with integrated charge read out JM Elzerman, R Hanson, JS Greidanus, LHW Van Beveren, ... Physical Review B 67 (16), 161308, 2003 | 604 | 2003 |
Supercurrent reversal in quantum dots JA Van Dam, YV Nazarov, EPAM Bakkers, S De Franceschi, ... Nature 442 (7103), 667-670, 2006 | 514 | 2006 |
Hybrid superconductor–quantum dot devices S De Franceschi, L Kouwenhoven, C Schönenberger, W Wernsdorfer Nature nanotechnology 5 (10), 703-711, 2010 | 488 | 2010 |
Orbital Kondo effect in carbon nanotubes P Jarillo-Herrero, J Kong, HSJ Van Der Zant, C Dekker, LP Kouwenhoven, ... Nature 434 (7032), 484-488, 2005 | 478 | 2005 |
Zero-bias anomaly in a nanowire quantum dot coupled to superconductors EJH Lee, X Jiang, R Aguado, G Katsaros, CM Lieber, S De Franceschi Physical review letters 109 (18), 186802, 2012 | 430 | 2012 |
Electron cotunneling in a semiconductor quantum dot S De Franceschi, S Sasaki, JM Elzerman, WG Van Der Wiel, S Tarucha, ... Physical review letters 86 (5), 878, 2001 | 402 | 2001 |
Semiconductor qubits in practice A Chatterjee, P Stevenson, S De Franceschi, A Morello, NP de Leon, ... Nature Reviews Physics 3 (3), 157-177, 2021 | 335 | 2021 |
The germanium quantum information route G Scappucci, C Kloeffel, FA Zwanenburg, D Loss, M Myronov, JJ Zhang, ... Nature Reviews Materials 6 (10), 926-943, 2021 | 302 | 2021 |
Epitaxial growth of InP nanowires on germanium EPAM Bakkers, JA Van Dam, S De Franceschi, LP Kouwenhoven, ... Nature materials 3 (11), 769-773, 2004 | 251 | 2004 |
Single-electron tunneling in InP nanowires S De Franceschi, JA Van Dam, E Bakkers, LF Feiner, L Gurevich, ... Applied Physics Letters 83 (2), 344-346, 2003 | 216 | 2003 |
Hybrid superconductor–semiconductor devices made from self-assembled SiGe nanocrystals on silicon G Katsaros, P Spathis, M Stoffel, F Fournel, M Mongillo, V Bouchiat, ... Nature nanotechnology 5 (6), 458-464, 2010 | 202 | 2010 |
The 2021 quantum materials roadmap F Giustino, JH Lee, F Trier, M Bibes, SM Winter, R Valentí, YW Son, ... Journal of Physics: Materials 3 (4), 042006, 2021 | 190 | 2021 |
Scaling silicon-based quantum computing using CMOS technology MF Gonzalez-Zalba, S De Franceschi, E Charbon, T Meunier, M Vinet, ... Nature Electronics 4 (12), 872-884, 2021 | 185 | 2021 |
Two-stage Kondo effect in a quantum dot at a high magnetic field WG Van der Wiel, S De Franceschi, JM Elzerman, S Tarucha, ... Physical Review Letters 88 (12), 126803, 2002 | 174 | 2002 |