Articoli con mandati relativi all'accesso pubblico - Peihao HuangUlteriori informazioni
Disponibili pubblicamente: 12
Noisy intermediate-scale quantum computers
B Cheng, XH Deng, X Gu, Y He, G Hu, P Huang, J Li, BC Lin, D Lu, Y Lu, ...
Frontiers of Physics 18 (2), 21308, 2023
Mandati: US Department of Defense, National Natural Science Foundation of China …
Decoherence of an electrically driven spin qubit
J Jing, P Huang, X Hu
Physical Review A 90 (2), 022118, 2014
Mandati: National Natural Science Foundation of China
Valley phase and voltage control of coherent manipulation in si quantum dots
NM Zimmerman, P Huang, D Culcer
Nano letters 17 (7), 4461-4465, 2017
Mandati: Australian Research Council
Controlling synthetic spin-orbit coupling in a silicon quantum dot with magnetic field
X Zhang, Y Zhou, RZ Hu, RL Ma, M Ni, K Wang, G Luo, G Cao, GL Wang, ...
Physical Review Applied 15 (4), 044042, 2021
Mandati: US Department of Defense, Chinese Academy of Sciences, National Natural …
Ultrafast and electrically tunable rabi frequency in a germanium hut wire hole spin qubit
H Liu, K Wang, F Gao, J Leng, Y Liu, YC Zhou, G Cao, T Wang, J Zhang, ...
Nano Letters 23 (9), 3810-3817, 2023
Mandati: National Natural Science Foundation of China
Doppler effect induced spin relaxation boom
X Zhao, P Huang, X Hu
Scientific reports 6 (1), 23169, 2016
Mandati: US National Science Foundation
Fast spin-valley-based quantum gates in Si with micromagnets
P Huang, X Hu
npj Quantum Information 7 (1), 162, 2021
Mandati: US Department of Defense, National Natural Science Foundation of China
Acceptor-based qubit in silicon with tunable strain
S Zhang, Y He, P Huang
Physical Review B 107 (15), 155301, 2023
Mandati: National Natural Science Foundation of China
Dephasing of Exchange‐Coupled Spins in Quantum Dots for Quantum Computing
P Huang
Advanced Quantum Technologies 4 (11), 2100018, 2021
Mandati: National Natural Science Foundation of China
Non-Markovian dynamics of the driven spin-boson model
X Cao, C Jiang, P Huang
New Journal of Physics 23 (9), 093044, 2021
Mandati: National Natural Science Foundation of China
Universal control of superexchange in linear triple quantum dots with an empty mediator
GX Chan, P Huang, X Wang
Physical Review B 108 (3), 035402, 2023
Mandati: National Natural Science Foundation of China, Research Grants Council, Hong Kong
Spin manipulation and decoherence in a quantum dot mediated by a synthetic spin–orbit coupling of broken T-symmetry
P Huang, X Hu
New Journal of Physics 24 (1), 013002, 2021
Mandati: US Department of Defense, National Natural Science Foundation of China
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