Folgen
Tao Xin (辛涛)
Tao Xin (辛涛)
Southern University of Science and Technology
Bestätigte E-Mail-Adresse bei sustech.edu.cn - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Efficient quantum simulation of photosynthetic light harvesting
BX Wang, MJ Tao, Q Ai, T Xin, N Lambert, D Ruan, YC Cheng, F Nori, ...
NPJ Quantum Information 4 (1), 52, 2018
972018
Experimental observation of equilibrium and dynamical quantum phase transitions via out-of-time-ordered correlators
X Nie, BB Wei, X Chen, Z Zhang, X Zhao, C Qiu, Y Tian, Y Ji, T Xin, D Lu, ...
Physical Review Letters 124 (25), 250601, 2020
942020
Enhancing quantum control by bootstrapping a quantum processor of 12 qubits
D Lu, K Li, J Li, H Katiyar, AJ Park, G Feng, T Xin, H Li, G Long, ...
npj Quantum Information 3 (1), 45, 2017
782017
Local-measurement-based quantum state tomography via neural networks
T Xin, S Lu, N Cao, G Anikeeva, D Lu, J Li, G Long, B Zeng
npj Quantum Information 5 (109), 2019
72*2019
Quantum state tomography via reduced density matrices
T Xin, D Lu, J Klassen, N Yu, Z Ji, J Chen, X Ma, G Long, B Zeng, ...
Physical review letters 118 (2), 020401, 2017
712017
Quantum algorithm for solving linear differential equations: Theory and experiment
T Xin, S Wei, J Cui, J Xiao, I Arrazola, L Lamata, X Kong, D Lu, E Solano, ...
Physical Review A 101 (3), 032307, 2020
692020
Nuclear magnetic resonance for quantum computing: Techniques and recent achievements☆
T Xin, BX Wang, KR Li, XY Kong, SJ Wei, T Wang, D Ruan, GL Long
Chinese Physics B 27 (2), 020308, 2018
692018
Estimating the coherence of noise in quantum control of a solid-state qubit
G Feng, JJ Wallman, B Buonacorsi, FH Cho, DK Park, T Xin, D Lu, ...
Physical review letters 117 (26), 260501, 2016
562016
Efficient universal quantum channel simulation in IBM’s cloud quantum computer
SJ Wei, T Xin, GL Long
Science China Physics, Mechanics & Astronomy 61, 1-10, 2018
472018
Tomography is necessary for universal entanglement detection with single-copy observables
D Lu, T Xin, N Yu, Z Ji, J Chen, G Long, J Baugh, X Peng, B Zeng, ...
Physical review letters 116 (23), 230501, 2016
472016
NMRCloudQ: a quantum cloud experience on a nuclear magnetic resonance quantum computer
T Xin, S Huang, S Lu, K Li, Z Luo, Z Yin, J Li, D Lu, G Long, B Zeng
Science Bulletin 63 (1), 17-23, 2018
432018
Quantum simulation of quantum channels in nuclear magnetic resonance
T Xin, SJ Wei, JS Pedernales, E Solano, GL Long
Physical Review A 96 (6), 062303, 2017
432017
Experimental demonstration of a digital quantum simulation of a general -symmetric system
J Wen, C Zheng, X Kong, S Wei, T Xin, G Long
Physical Review A 99 (6), 062122, 2019
412019
Experimental realization of quantum algorithms for a linear system inspired by adiabatic quantum computing
J Wen, X Kong, S Wei, B Wang, T Xin, G Long
Physical Review A 99 (1), 012320, 2019
412019
Experimental realization of a quantum refrigerator driven by indefinite causal orders
X Nie, X Zhu, K Huang, K Tang, X Long, Z Lin, Y Tian, C Qiu, C Xi, X Yang, ...
Physical Review Letters 129 (10), 100603, 2022
372022
Quantum phases of three-dimensional chiral topological insulators on a spin quantum simulator
T Xin, Y Li, Y Fan, X Zhu, Y Zhang, X Nie, J Li, Q Liu, D Lu
Physical Review Letters 125 (9), 090502, 2020
342020
Observation of information flow in the anti-PT-symmetric system with nuclear spins
J Wen, G Qin, C Zheng, S Wei, X Kong, T Xin, G Long
npj Quantum Information 6 (1), 1-7, 2020
34*2020
Realization of an entanglement-assisted quantum delayed-choice experiment
T Xin, H Li, BX Wang, GL Long
Physical Review A 92 (2), 022126, 2015
342015
Experimental quantum principal component analysis via parametrized quantum circuits
T Xin, L Che, C Xi, A Singh, X Nie, J Li, Y Dong, D Lu
Physical Review Letters 126 (11), 110502, 2021
332021
Entanglement-enhanced quantum metrology in colored noise by quantum Zeno effect
X Long, WT He, NN Zhang, K Tang, Z Lin, H Liu, X Nie, G Feng, J Li, T Xin, ...
Physical Review Letters 129 (7), 070502, 2022
322022
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20