M. Veldhorst
M. Veldhorst
QuTech & Kavli Institute of Nanoscience, Delft University of Technology
Verified email at - Homepage
Cited by
Cited by
A two-qubit logic gate in silicon
M Veldhorst, CH Yang, JCC Hwang, W Huang, JP Dehollain, JT Muhonen, ...
Nature 526 (7573), 410-414, 2015
An addressable quantum dot qubit with fault-tolerant control-fidelity
M Veldhorst, JCC Hwang, CH Yang, AW Leenstra, B de Ronde, ...
Nature nanotechnology 9 (12), 981-985, 2014
A programmable two-qubit quantum processor in silicon
TF Watson, SGJ Philips, E Kawakami, DR Ward, P Scarlino, M Veldhorst, ...
nature 555 (7698), 633-637, 2018
Interfacing spin qubits in quantum dots and donors—hot, dense, and coherent
LMK Vandersypen, H Bluhm, JS Clarke, AS Dzurak, R Ishihara, A Morello, ...
npj Quantum Information 3 (1), 34, 2017
Silicon CMOS architecture for a spin-based quantum computer
M Veldhorst, HGJ Eenink, CH Yang, AS Dzurak
Nature communications 8 (1), 1766, 2017
Josephson supercurrent through a topological insulator surface state
M Veldhorst, M Snelder, M Hoek, T Gang, VK Guduru, XL Wang, U Zeitler, ...
Nature Materials 11, 417-421, 2012
A four-qubit germanium quantum processor
NW Hendrickx, WIL Lawrie, M Russ, F van Riggelen, SL de Snoo, ...
Nature 591 (7851), 580-585, 2021
Universal quantum logic in hot silicon qubits
L Petit, HGJ Eenink, M Russ, WIL Lawrie, NW Hendrickx, SGJ Philips, ...
Nature 580 (7803), 355-359, 2020
A crossbar network for silicon quantum dot qubits
R Li, L Petit, DP Franke, JP Dehollain, J Helsen, M Steudtner, NK Thomas, ...
Science advances 4 (7), eaar3960, 2018
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
Fast two-qubit logic with holes in germanium
NW Hendrickx, DP Franke, A Sammak, G Scappucci, M Veldhorst
Nature 577 (7791), 487-491, 2020
Qubits made by advanced semiconductor manufacturing
AMJ Zwerver, T Krähenmann, TF Watson, L Lampert, HC George, ...
Nature Electronics 5 (3), 184-190, 2022
Universal control of a six-qubit quantum processor in silicon
SGJ Philips, MT Mądzik, SV Amitonov, SL de Snoo, M Russ, N Kalhor, ...
Nature 609 (7929), 919-924, 2022
CMOS-based cryogenic control of silicon quantum circuits
X Xue, B Patra, JPG van Dijk, N Samkharadze, S Subramanian, A Corna, ...
Nature 593 (7858), 205-210, 2021
Electrically controlling single-spin qubits in a continuous microwave field
A Laucht, JT Muhonen, FA Mohiyaddin, R Kalra, JP Dehollain, S Freer, ...
Science advances 1 (3), e1500022, 2015
Gate-controlled quantum dots and superconductivity in planar germanium
NW Hendrickx, DP Franke, A Sammak, M Kouwenhoven, D Sabbagh, ...
Nature communications 9 (1), 2835, 2018
A single-hole spin qubit
NW Hendrickx, WIL Lawrie, L Petit, A Sammak, G Scappucci, M Veldhorst
Nature communications 11 (1), 3478, 2020
Quantum dot arrays in silicon and germanium
WIL Lawrie, HGJ Eenink, NW Hendrickx, JM Boter, L Petit, SV Amitonov, ...
Applied Physics Letters 116 (8), 2020
Shallow and undoped germanium quantum wells: a playground for spin and hybrid quantum technology
A Sammak, D Sabbagh, NW Hendrickx, M Lodari, B Paquelet Wuetz, ...
Advanced Functional Materials 29 (14), 1807613, 2019
Spin lifetime and charge noise in hot silicon quantum dot qubits
L Petit, JM Boter, HGJ Eenink, G Droulers, MLV Tagliaferri, R Li, ...
Physical review letters 121 (7), 076801, 2018
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