Tao Xin Associate Researcher
email: null
Office:
Research Field: Spin-based Quantum Computing, Quantum Tomography, Quantum Machine Learning
Essential Information
Name: Tao XIN
Position: Associate Researcher
Highest Degree:Doctor Degree
Research Field:
1. Quantum algorithm, Quantum simulations and Quantum cloud
2. Quantum differential solution and Quantum figure processing
3. Quantum state tomography via reduced density matrices and machine learning
4. Time-correlation functions and simulation of open quantum systems
5. Experimental realization of entanglement-assisted quantum delay-choice protocol
6. Quantum entanglement detection
Educational
Background
2013.08-2018.01,
Ph. D. in Physics Science, Department of Physics, Tsinghua University, China
2015.03-2016.03,
Academic Visitor, The Institute of Quantum Computing, University of Waterloo,
Canada
2009.08-2013.07,
Bachelor of Physics, Department of Physics, Harbin Institute of Technology,
China
Working
Experience
2018.04-now,
Assistant Professor, Shenzhen Institute for Quantum science and Engineering, Southern
University of Science and Technology
2018.02-2018.03,
Academic Visitor, Department of Physics, Southern University of Science and
Technology
Honors
and Awards
2017,
The National Scholarship of China
2013,
Outstanding Graduate of HeiLongJiang Province, China
2011,
The National Scholarship of China
Papers
and Patents
代表性论文:
1. Tao Xin†, Liangyu Che, Cheng Xi, Amandeep Singh, Xinfang Nie, Jun Li†, Ying Dong†, and Dawei Lu†, Experimental Quantum Principal Component Analysis via Parameterized Quantum Circuits, Physical Review Letters, Accepted (2021)
2. Qihao Guo, Yuan-Yuan Zhao, Markus Grassl, Xinfang Nie, Guo-Yong Xiang†, Tao Xin†, et al, Testing a quantum error-correcting code on various platforms. Science Bulletin, 66 (1), 29-35 (2021)
3. Tao Xin†, Yishan Li, Yu-ang Fan, Xuanran Zhu, Yingjie Zhang, Xinfang Nie, Jun Li†, Qihang Liu†, and Dawei Lu†, Quantum Phases of Three-Dimensional Chiral Topological Insulators on a Spin Quantum Simulator. Physical Review Letters 125, 090502 (2020)
4. Xinfang Nie∗, Bo-Bo Wei∗, Xi Chen, Ze Zhang, Xiuzhu Zhao, Chudan Qiu, Yu Tian, Yunlan Ji, Tao Xin†, Dawei Lu†, and Jun Li†, Experimental Observation of Equilibrium and Dynamical Quantum Phase Transitions via Out-of-Time-Ordered Correlators, Physical Review Letters 124, 250601 (2020)
5. Wen JingWei, Qin GuoQing, Zheng Chao, Wei ShiJie, Kong XiangYu, Xin Tao†, & Long GuiLu†, Observation of information flow in the anti-PT-symmetric system with nuclear spins. npj Quantum Information, 6(1), 1-7 (2020)
6. Xin Tao†, Nie XinFang, Kong XiangYu, Wen JingWei, et al, Quantum Pure State Tomography via Variational Hybrid Quantum-Classical Method. Physical Review Applied, 13, 024013 (2020)
7. Tao Xin†, Improved Quantum State Tomography for Systems with XX+YY Couplings and Z Readouts. Physical Review A, 102(5),052410 (2020)
8. Xin Tao∗, Lu SiRui∗, Cao NingPing∗, Anikeeva G., et al, Local-measurement-based quantum state tomography via neural networks. npj Quantum Information, 5(1), 1-8 (2019)
9. Tao Xin, Shilin Huang, Sirui Lu, Keren Li, Zhihuang Luo, Zhangqi Yin, et al, NMRCloudQ: A Quantum Cloud Experience on a Nuclear Magnetic Resonance Quantum Computer, Science Bulletin 63(1):17-23 (2018)
10. Tao Xin∗, Dawei Lu∗, Joel Klassen∗, Nengkun Yu, Zhengfeng Ji, Jianxin Chen, Xian Ma, et al, Quantum State Tomography via Reduced Density Matrices, Physical Review Letters 118, 020401 (2017)
11. Dawei Lu∗ , Tao Xin∗ , Nengkun Yu∗ , Zhengfeng Ji, Jianxin Chen, Guilu Long, Jonathan Baugh, et al, Tomography is Necessary for Universal Entanglement Detection with Single-Copy Observables, Physical Review Letters 116, 230501 (2016)