Huo Yongheng
Cited by
Cited by
Strong quantum computational advantage using a superconducting quantum processor
Y Wu, WS Bao, S Cao, F Chen, MC Chen, X Chen, TH Chung, H Deng, ...
Physical review letters 127 (18), 180501, 2021
Towards optimal single-photon sources from polarized microcavities
H Wang, YM He, TH Chung, H Hu, Y Yu, S Chen, X Ding, MC Chen, J Qin, ...
Nature Photonics 13 (11), 770-775, 2019
On-demand semiconductor source of entangled photons which simultaneously has high fidelity, efficiency, and indistinguishability
H Wang, H Hu, TH Chung, J Qin, X Yang, JP Li, RZ Liu, HS Zhong, YM He, ...
Physical review letters 122 (11), 113602, 2019
Highly indistinguishable and strongly entangled photons from symmetric GaAs quantum dots
D Huber, M Reindl, Y Huo, H Huang, JS Wildmann, OG Schmidt, ...
Nature communications 8 (1), 15506, 2017
Quantum walks on a programmable two-dimensional 62-qubit superconducting processor
M Gong, S Wang, C Zha, MC Chen, HL Huang, Y Wu, Q Zhu, Y Zhao, S Li, ...
Science 372 (6545), 948-952, 2021
Quantum computational advantage via 60-qubit 24-cycle random circuit sampling
Q Zhu, S Cao, F Chen, MC Chen, X Chen, TH Chung, H Deng, Y Du, ...
Science bulletin 67 (3), 240-245, 2022
Realization of an error-correcting surface code with superconducting qubits
Y Zhao, Y Ye, HL Huang, Y Zhang, D Wu, H Guan, Q Zhu, Z Wei, T He, ...
Physical Review Letters 129 (3), 030501, 2022
Ultra-small excitonic fine structure splitting in highly symmetric quantum dots on GaAs (001) substrate
YH Huo, A Rastelli, OG Schmidt
Applied Physics Letters 102 (15), 2013
A light-hole exciton in a quantum dot
YH Huo, BJ Witek, S Kumar, JR Cardenas, JX Zhang, N Akopian, R Singh, ...
Nature Physics 10 (1), 46-51, 2014
High yield and ultrafast sources of electrically triggered entangled-photon pairs based on strain-tunable quantum dots
J Zhang, JS Wildmann, F Ding, R Trotta, Y Huo, E Zallo, D Huber, ...
Nature communications 6 (1), 10067, 2015
Phonon-assisted two-photon interference from remote quantum emitters
M Reindl, KD Jöns, D Huber, C Schimpf, Y Huo, V Zwiller, A Rastelli, ...
Nano letters 17 (7), 4090-4095, 2017
An artificial Rb atom in a semiconductor with lifetime-limited linewidth
JP Jahn, M Munsch, L Béguin, AV Kuhlmann, M Renggli, Y Huo, F Ding, ...
Physical Review B 92 (24), 245439, 2015
Plasmonic superlensing in doped GaAs
M Fehrenbacher, S Winnerl, H Schneider, J Döring, SC Kehr, LM Eng, ...
Nano letters 15 (2), 1057-1061, 2015
Uniaxial stress flips the natural quantization axis of a quantum dot for integrated quantum photonics
X Yuan, F Weyhausen-Brinkmann, J Martín-Sánchez, G Piredda, ...
Nature communications 9 (1), 3058, 2018
Generation of genuine entanglement up to 51 superconducting qubits
S Cao, B Wu, F Chen, M Gong, Y Wu, Y Ye, C Zha, H Qian, C Ying, S Guo, ...
Nature 619 (7971), 738-742, 2023
On-chip single-plasmon nanocircuit driven by a self-assembled quantum dot
X Wu, P Jiang, G Razinskas, Y Huo, H Zhang, M Kamp, A Rastelli, ...
Nano Letters 17 (7), 4291-4296, 2017
Electrically-pumped wavelength-tunable GaAs quantum dots interfaced with rubidium atoms
H Huang, R Trotta, Y Huo, T Lettner, JS Wildmann, J Martín-Sánchez, ...
ACS photonics 4 (4), 868-872, 2017
Single photons on-demand from light-hole excitons in strain-engineered quantum dots
J Zhang, Y Huo, A Rastelli, M Zopf, B Höfer, Y Chen, F Ding, ...
Nano letters 15 (1), 422-427, 2015
Volume dependence of excitonic fine structure splitting in geometrically similar quantum dots
YH Huo, V Křápek, A Rastelli, OG Schmidt
Physical Review B 90 (4), 041304, 2014
Multi-harmonic quantum dot optomechanics in fused LiNbO3–(Al) GaAs hybrids
EDS Nysten, YH Huo, H Yu, GF Song, A Rastelli, HJ Krenner
Journal of Physics D: Applied Physics 50 (43), 43LT01, 2017
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