| Boosting hole mobility in coherently strained [110]-oriented Ge–Si core–shell nanowires S Conesa-Boj, A Li, S Koelling, M Brauns, J Ridderbos, TT Nguyen, ... Nano letters 17 (4), 2259-2264, 2017 | 77 | 2017 |
| Electric-field dependent -factor anisotropy in Ge-Si core-shell nanowire quantum dots M Brauns, J Ridderbos, A Li, EPAM Bakkers, FA Zwanenburg Physical Review B 93 (12), 121408, 2016 | 71 | 2016 |
| Anisotropic Pauli spin blockade in hole quantum dots M Brauns, J Ridderbos, A Li, EPAM Bakkers, WG Van Der Wiel, ... Physical Review B 94 (4), 041411, 2016 | 53 | 2016 |
| Single-hole tunneling through a two-dimensional hole gas in intrinsic silicon PC Spruijtenburg, J Ridderbos, F Mueller, AW Leenstra, M Brauns, ... Applied physics letters 102 (19), 2013 | 48 | 2013 |
| Single, double, and triple quantum dots in Ge/Si nanowires FNM Froning, MK Rehmann, J Ridderbos, M Brauns, FA Zwanenburg, ... Applied physics letters 113 (7), 2018 | 46 | 2018 |
| Magnetic, thermal, and topographic imaging with a nanometer-scale SQUID-on-lever scanning probe M Wyss, K Bagani, D Jetter, E Marchiori, A Vervelaki, B Gross, ... Physical review applied 17 (3), 034002, 2022 | 33 | 2022 |
| Highly tuneable hole quantum dots in Ge-Si core-shell nanowires M Brauns, J Ridderbos, A Li, WG Van Der Wiel, EPAM Bakkers, ... Applied Physics Letters 109 (14), 2016 | 33 | 2016 |
| Hard superconducting gap and diffusion-induced superconductors in Ge–Si nanowires J Ridderbos, M Brauns, FK de Vries, J Shen, A Li, S Kölling, ... Nano letters 20 (1), 122-130, 2019 | 32 | 2019 |
| Spin–orbit interaction and induced superconductivity in a one-dimensional hole gas FK De Vries, J Shen, RJ Skolasinski, MP Nowak, D Varjas, L Wang, ... Nano letters 18 (10), 6483-6488, 2018 | 31 | 2018 |
| Multiple Andreev reflections and Shapiro steps in a Ge-Si nanowire Josephson junction J Ridderbos, M Brauns, A Li, EPAM Bakkers, A Brinkman, ... Physical Review Materials 3 (8), 084803, 2019 | 29 | 2019 |
| Zeeman-Effect-Induced Transitions in Ballistic Dirac Semimetal Josephson Junctions C Li, B de Ronde, J de Boer, J Ridderbos, F Zwanenburg, Y Huang, ... Physical review letters 123 (2), 026802, 2019 | 26 | 2019 |
| Josephson Effect in a Few‐Hole Quantum Dot J Ridderbos, M Brauns, J Shen, FK de Vries, A Li, EPAM Bakkers, ... Advanced materials 30 (44), 1802257, 2018 | 25 | 2018 |
| Phase-dependent microwave response of a graphene Josephson junction R Haller, G Fülöp, D Indolese, J Ridderbos, R Kraft, LY Cheung, ... Physical Review Research 4 (1), 013198, 2022 | 21 | 2022 |
| Strong coupling between a microwave photon and a singlet-triplet qubit JH Ungerer, A Pally, A Kononov, S Lehmann, J Ridderbos, PP Potts, ... Nature Communications 15 (1), 1068, 2024 | 15 | 2024 |
| Performance of high impedance resonators in dirty dielectric environments JH Ungerer, D Sarmah, A Kononov, J Ridderbos, R Haller, LY Cheung, ... EPJ Quantum Technology 10 (1), 1-13, 2023 | 8 | 2023 |
| Coherent control of a few-channel hole type gatemon qubit H Zheng, LY Cheung, N Sangwan, A Kononov, R Haller, J Ridderbos, ... Nano Letters, 2024 | 7 | 2024 |
| Charge-sensing of a Ge/Si core/shell nanowire double quantum dot using a high-impedance superconducting resonator JH Ungerer, PC Kwon, T Patlatiuk, J Ridderbos, A Kononov, D Sarmah, ... Materials for Quantum Technology 3 (3), 031001, 2023 | 7 | 2023 |
| ac Josephson effect in a gate-tunable nanowire superconducting weak link R Haller, M Osterwalder, G Fülöp, J Ridderbos, M Jung, C Schönenberger Physical Review B 108 (9), 094514, 2023 | 5 | 2023 |
| Quantum dots and superconductivity in Ge-Si nanowires J Ridderbos | 2 | 2018 |
| Magnetic field enhanced critical current in Ge–Si nanowire Josephson junctions Z Wu, J Ridderbos, A Li, AA Golubov, FA Zwanenburg, EPAM Bakkers, ... Applied Physics Letters 125 (1), 2024 | 1 | 2024 |
Floris ZwanenburgAssociate Professor, University of TwenteVerified email at utwente.nl