Prof. Xinhua Peng
.
Author:臧晶晶  Release time:2020-05-18   Access times:1105

Name: 

PENG Xinhua

Address:

Room 402, Department of Modern Physics, University of Science and Technology of China, Hefei, Anhui, 230026, PR China

Tel:

86-551-63602439

E-mail:

xhpeng@ustc.edu.cn

 

EDUCATION AND RESEARCH EXPERIENCE

1997-1998

Hunan Normal University. Department of Physics. Bachelor.

1998-2003

Wuhan Institute of Physics and Mathematics, Chinese Academy of Science. Doctor.

2003-2005

Dortmund University of Technology. Alexander von Humboldt Fellow

2005-2008

2008-present

Dortmund University of Technology. Research fellow.

University of Science and Technology of China, Department of Modern Physics. Professor

 

RESEARCH INTERESTS

  1. Quantum computation, quantum simulation and quantum control using magnetic resonance technology

  2. Quantum algorithms in numerical theory

  3. Nuclear magnetic resonance spectroscopy

  4. Atomic magnetometer and quantum precision measurement

  5. Basic problems in quantum mechanics


CURRENT RESEARCH PROJECTS

  1. "Development of ultra-low-field nuclear magnetic resonance spectrometer based on high-sensitivity atomic magnetometer", National major scientific research instrument development project,

2020.01-2024.12.

  1. "Nitrogen-Vacancy Center Quantum Simulation Research", National Key R & D Program Project Class, Ministry of Science and Technology,

2018.05-2023.04.

  1. "Solid State Nuclear Magnetic Resonance Quantum Simulation of Dynamic Multibody Physics", International (Regional) Cooperation and Exchange Project,

2017.01-2020.12.

  1. Quantum computation and quantum simulation”, National Natural Science Foundation of China Project,

2015.01-2019.12.

 

REPRESENTATIVE PUBLICATIONS(按年代倒序排列,粗体突出本人和期刊名)

  1. H. Wang, Z. Ma, S. Wu, W. Zheng, Z. Cao, Z. Chen, Z. Li, S.-M. Fei, X. Peng, V. Vedral, and J. Du. Uncertainty equality with quantum memory and its experimental verification. npj Quantum Information 5, 39 (2019).

  2. Zhaokai Li, Xiaomei Liu, Hefeng Wang, Sahel Ashhab, Jiangyu Cui, Hongwei Chen, XinhuaPeng, and Jiangfeng Du, Quantum Simulation of Resonant Transitions for Solving the Eigen-problem of an Effective Water Hamiltonian, Physical Review Letters 122, 090504 (2019).

  3. Ping Wang, Chong Chen, Xinhua Peng, Jorg Wrachtrup, Ren-Bao Liu, Characterization of Arbitrary-Order Correlations in Quantum Baths by Weak Measurement, Physical Review Letters 123, 050603 (2019).

  4. Zhihuang Luo, Jun Li, Zhaokai Li, Ling-Yan Hung, Yidun Wan, Xinhua Peng, and Jiangfeng Du, Experimentally Probing Topological Order and Its Breakdown through Modular Matrices, Nature Physics 14, 160 (2018).

  5. M. Jiang, T. Wu, J. W. Blanchard, G. Feng, X. Peng, and D. Budker, Experimental benchmarking of quantum control in zero-field nuclear magnetic resonance, Science Advances 4, eaar6327 (2018).

  6. W. Zheng, Z. Ma, H. Wang, S.-M. Fei, and X. Peng, Experimental demonstration of observability and operability of robustness of coherence, Phys. Rev. Lett. 120, 230504 (2018).

  7. W.-L. Chang*, Q. Yu, Z. Li, J. Chen, X. Peng*, and M. Feng*, Quantum speedup in solving the maximal- clique problem, Phys. Rev. A 97, 032344 (2018).

  8. J. Cui, J. Li, X. Liu, X. Peng and R. Fu, Engineering spin hamiltonians using multiple pulse sequences in solid state nmr spectroscopy, J. Magn. Resson. 294, 83 (2018).

  9. Jun Li, Ruihua Fan, Hengyan Wang, Bingtian Ye, Bei Zeng, Hui Zhai, Xinhua Peng, Jiangfeng Du, Measuring out-of-time-order correlators on a nuclear magnetic resonance quantum simulator. Phys. Rev. X 7, 031011 (2017) [Featured in Physics, Selected for a Viewpoint in Physics].

  10. Xi-Wei Yao, Hengyan Wang, Zeyang Liao, Ming-cheng Chen, Jian Pan, Jun Li, Kechao Zhang, Xingcheng Lin, Zhehui Wang, Zhihuang Luo, Wenqiang Zheng, Jianzhong Li, Meisheng Zhao, Xinhua Peng, and Dieter Suter, Quantum image processing and its application to edge detection: Theory and experiment, Phys. Rev. X 7, 031041(2017).

  11. Ji Bian, Min Jiang, Jiangyu Cui, Xiaomei Liu, Botao Chen, Yunlan Ji, Bo Zhang, John Blanchard, Xinhua Peng and Jiangfeng Du,Universal Quantum Control in Zero-field Nuclear Magnetic Resonance, Phys. Rev. A 95, 052342 (2017).

  12. Jiangyu Cui, Jun Li, Riqiang Fu and Xinhua Peng, Transient NOE Enhances Sensitivity of Low-$\gamma$ Nuclei in Solid-State MAS NMR of Mobile Systems, J. Magn. Reson. 284, 73 (2017).

  13. Jun Li, Xiaodong Yang, Xinhua Peng, Changpu Sun, Hybrid Quantum-Classical Approach to Quantum Optimal Control, Physical Review Letters 118, 150503(2017).

  14. J. Li, D.W. Lu , Z. H. Luo, R. Laflamme, X. H. Peng, and J. F. Du*, Maximally accessible purity in coherently controlled open quantum systems: application to quantum state engineering, Phys. Rev. A 94, 012312 (2016).

  15. Jun Li, Jiangyu Cui, Raymond Laflamme, Xinhua Peng, Compilation of selective pulse network on liquid-state nuclear magnetic resonance system, Phys. Rev. A 94, 032316 (2016).

  16. Wenchao Ma, Zhihao Ma, Hengyan Wang, Zhihua Chen, Ying Liu, Fei Kong, Zhaokai Li, Xinhua Peng, Mingjun Shi, Fazhan Shi, Shao-Ming Fei, and Jiangfeng Du, Experimental Test of Heisenberg’s Measurement Uncertainty Relation Based on Statistical Distances, Physical Review Letters 116, 160405 (2016).

  17. Xinhua Peng, Hui Zhou, Bo-Bo Wei, Jiangyu Cui, Jiangfeng Du, and Ren-Bao Liu, Experimental Observation of Lee-Yang Zeros, Physical Review Letters 114, 010601 (2015). highlight article.

  18. Xinhua Peng, ZhihuangLuo, WenqiangZheng, Supeng Kou, Dieter Suter, and Jiangfeng Du, Experimental implementation of adiabatic passage between different topological orders, Physical Review Letters 113, 080404(2014).

  19. Zhaokai Li, Hui Zhou, ChenyongJu, Hongwei Chen, WenqiangZheng, Dawei Lu, Xing Rong, Changkui Duan, Xinhua Peng, and Jiangfeng Du, Experimental Realization of a Compressed Quantum Simulation of a 32-Spin Ising Chain, Physical Review Letters 112, 220501 (2014). highlight article.

  20. NanyangXu, Jing Zhu, Dawei Lu, Xianyi Zhou, Xinhua Peng, and Jiangfeng Du, Quantum Factorization of 143 on a Dipolar-Coupling Nuclear Magnetic Resonance System, Physical Review Letters 108, 130501 (2012).

  21. Hongwei Chen, Dawei Lu, Bo Chong, Gan Qin, Xianyi Zhou, Xinhua Peng, and Jiangfeng Du, Experimental Demonstration of Probabilistic Quantum Cloning, Physical Review Letters 106, 180404 (2011).

  22. Dawei Lu, NanyangXu, RuixueXu, Hongwei Chen, Jiangbin Gong, Xinhua Peng, and Jiangfeng Du, Simulation of Chemical Isomerization Reaction Dynamics on a NMR Quantum Simulator, Physical Review Letters 107, 020501 (2011).

  23. Jiangfeng Du, NanyangXu, Xinhua Peng, Pengfei Wang, Sanfeng Wu, and Dawei Lu, NMR Implementation of a Molecular Hydrogen Quantum Simulation with Adiabatic State Preparation, Physical Review Letters 104, 030502 (2010). highlight article

  24. Xinhua Peng, Sanfeng Wu, Jun Li, Dieter Suter, and Jiangfeng Du, Observation of the Ground-State Geometric Phase in a Heisenberg XY Model, Physical Review Letters 105, 240405 (2010).

  25. Fazhan Shi, Xing Rong, NanyangXu, Ya Wang, Jie Wu, Bo Chong, Xinhua Peng, JulianeKniepert, Rolf-Simon Schoenfeld, Wolfgang Harneit, MangFeng, and Jiangfeng Du, Room-Temperature Implementation of the Deutsch-Jozsa Algorithm with a Single Electronic Spin in Diamond, Physical Review Letters 105, 040504 (2010).

  26. Xinhua Peng, Jingfu Zhang, Jiangfeng Du, and Dieter Suter, Quantum Simulation of a System with Competing Two- and Three-Body Interactions, Physical Review Letters 103, 140501 (2009).

  27. Xinhua Peng, Zeyang Liao, NanyangXu, Gan Qin, Xianyi Zhou, Dieter Suter, and Jiangfeng Du, Quantum Adiabatic Algorithm for Factorization and Its Experimental Implementation, Physical Review Letters 101, 220405 (2008).

  28. Jingfu Zhang, Xinhua Peng, Nageswaran Rajendran, and Dieter Suter:Detection of Quantum Critical Points by a Probe Qubit. Physical Review Letters. 100, 100501 (2008).