Folgen
Gijs de Lange
Gijs de Lange
Principal Researcher at Microsoft Quantum Lab Delft, The Netherlands
Bestätigte E-Mail-Adresse bei microsoft.com
Titel
Zitiert von
Zitiert von
Jahr
Universal dynamical decoupling of a single solid-state spin from a spin bath
G De Lange, ZH Wang, D Riste, VV Dobrovitski, R Hanson
Science 330 (6000), 60-63, 2010
9412010
Deterministic entanglement of superconducting qubits by parity measurement and feedback
D Riste, M Dukalski, CA Watson, G De Lange, MJ Tiggelman, YM Blanter, ...
Nature 502 (7471), 350-354, 2013
3772013
Realization of microwave quantum circuits using hybrid superconducting-semiconducting nanowire Josephson elements
G De Lange, B Van Heck, A Bruno, DJ Van Woerkom, A Geresdi, ...
Physical review letters 115 (12), 127002, 2015
2902015
Reducing intrinsic loss in superconducting resonators by surface treatment and deep etching of silicon substrates
A Bruno, G De Lange, S Asaad, KL Van Der Enden, NK Langford, ...
Applied Physics Letters 106 (18), 2015
2592015
Hot nonequilibrium quasiparticles in transmon qubits
K Serniak, M Hays, G De Lange, S Diamond, S Shankar, LD Burkhart, ...
Physical review letters 121 (15), 157701, 2018
2432018
Single-spin magnetometry with multipulse sensing sequences
G de Lange, D Ristè, VV Dobrovitski, R Hanson
Physical review letters 106 (8), 080802, 2011
2372011
Direct microwave measurement of Andreev-bound-state dynamics in a semiconductor-nanowire Josephson junction
M Hays, G De Lange, K Serniak, DJ Van Woerkom, D Bouman, ...
Physical review letters 121 (4), 047001, 2018
1842018
Controlling the quantum dynamics of a mesoscopic spin bath in diamond
G De Lange, T Van Der Sar, M Blok, ZH Wang, V Dobrovitski, R Hanson
Scientific reports 2 (1), 382, 2012
1802012
InAs-Al hybrid devices passing the topological gap protocol
M Aghaee, A Akkala, Z Alam, R Ali, A Alcaraz Ramirez, M Andrzejczuk, ...
Physical Review B 107 (24), 245423, 2023
1522023
Comparison of dynamical decoupling protocols for a nitrogen-vacancy center in diamond
ZH Wang, G De Lange, D Ristè, R Hanson, VV Dobrovitski
Physical Review B—Condensed Matter and Materials Physics 85 (15), 155204, 2012
1502012
Nanopositioning of a diamond nanocrystal containing a single nitrogen-vacancy defect center
T Van der Sar, EC Heeres, GM Dmochowski, G De Lange, L Robledo, ...
Applied Physics Letters 94 (17), 2009
1162009
Probing dynamics of an electron-spin ensemble via a superconducting resonator
V Ranjan, G De Lange, R Schutjens, T Debelhoir, JP Groen, D Szombati, ...
Physical review letters 110 (6), 067004, 2013
1142013
Reversing quantum trajectories with analog feedback
G De Lange, D Riste, MJ Tiggelman, C Eichler, L Tornberg, G Johansson, ...
Physical Review Letters 112 (8), 080501, 2014
1102014
Continuous monitoring of a trapped superconducting spin
M Hays, V Fatemi, K Serniak, D Bouman, S Diamond, G de Lange, ...
Nature Physics 16 (11), 1103-1107, 2020
992020
Entanglement genesis by ancilla-based parity measurement in 2D circuit QED
OP Saira, JP Groen, J Cramer, M Meretska, G De Lange, L DiCarlo
Physical review letters 112 (7), 070502, 2014
872014
Gate-tunable field-compatible fluxonium
M Pita-Vidal, A Bargerbos, CK Yang, DJ Van Woerkom, W Pfaff, N Haider, ...
Physical Review Applied 14 (6), 064038, 2020
592020
Protocol to identify a topological superconducting phase in a three-terminal device
DI Pikulin, B van Heck, T Karzig, EA Martinez, B Nijholt, T Laeven, ...
arXiv preprint arXiv:2103.12217, 2021
522021
Ballistic InSb nanowires and networks via metal-sown selective area growth
P Aseev, G Wang, L Binci, A Singh, S Martí-Sánchez, M Botifoll, LJ Stek, ...
Nano letters 19 (12), 9102-9111, 2019
472019
Observation of vanishing charge dispersion of a nearly open superconducting island
A Bargerbos, W Uilhoorn, CK Yang, P Krogstrup, LP Kouwenhoven, ...
Physical review letters 124 (24), 246802, 2020
462020
Bootstrap tomography of the pulses for quantum control
VV Dobrovitski, G De Lange, D Riste, R Hanson
Physical review letters 105 (7), 077601, 2010
362010
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20