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DU Jiangfeng, Professor Quantum Physics and Quantum Information

Name:  Du Jiangfeng (杜江峰)
Born:   June 6, 1969, Jiangsu Province, P. R. China
Address: Department of Modern Physics, University of Science and Technology of China, Hefei, Anhui, 230026, PR China
Tel: 86-551-63600307
E-mail: qcmr@ustc.edu.cn
1997-2000 University of Science and technology of China, CHINA
PHD, Quantum computation
1998.10-2002.06 University of Science and Technology of China,
Laboratory of Quantum Communication and Quantum Computation.
2000-2004 University of Science and Technology of China,
Department of Modern Physics. Associate professor
2002.07-2003.06 National University of Singapore, Laboratory of Quantum Information. Research Fellow
2004-preset University of Science and Technology of China, Department of Modern Physics. Professor
Spin based quantum computation and simulation, quantum metrology, and related quantum physics.
1. National Key Basic Research Program of China (also called 973 Program) (2013CB921800), “Solid-state quantum computation research based on quantum control of spins”, Principal Investigator(2013-2017).
2. National Natural Science Foundation of China Project (Scientific Instrument Program,11227901), “Development of single-spin based multi-frequency magnetic resonance spectrometer”, Principal Investigator (2013-2017).
[1] Fazhan Shi, Qi Zhang, Pengfei Wang, Hongbin Sun, Jiarong Wang, Xing Rong, Ming Chen, Chenyong Ju, Friedemann Reinhard, Hongwei Chen, Jörg Wrachtrup, Junfeng Wang, and Jiangfeng Du, Single-protein Spin Resonance Spectroscopy under Ambient Conditions, Science 347, 1135 (2015).
[2] Pengfei Wang, Zhenheng Yuan, Pu Huang, Xing Rong, Mengqi Wang, Xiangkun Xu, Changkui Duan, Chenyong Ju, Fazhan Shi, and Jiangfeng Du, High resolution vector microwave magnetometry based on solid-state spins in diamond, Nature Communications 6, 6631 (2015).
[3] Xing Rong, Jianpei Geng, Fazhan Shi, Ying Liu, Kebiao Xu, Wenchao Ma, Fei Kong, Zhen Jiang, Yang Wu, and Jiangfeng Du, Experimental fault-tolerant universal quantum gates with solid-state spins under ambient conditions, Nature Communications 6, 8748 (2015).
[4] Fei Kong, Chenyong Ju, Pu Huang, PengfeiWang, Xi Kong, Fazhan Shi, Liang Jiang, and Jiangfeng Du, Experimental Realization of High-Efficiency Counterfactual Computation, Physical Review Letters 115, 080501 (2015).
[5] 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
[6] Zhaokai Li, Xiaomei Liu, Nanyang Xu, and Jiangfeng Du, Experimental realization of a quantum support vector machine, Physical Review Letters 114, 140504 (2015).
[7] Fazhan Shi, Xi Kong, Pengfei Wang, Fei Kong, Nan Zhao, Ren-Bao Liu, Jiangfeng Du, Sensing and atomic-scale structure analysis of single nuclear spin clusters in diamond, Nature Physics 10, 21 (2014).
[8] Xinhua Peng, Zhihuang Luo, Wenqiang Zheng, Supeng Kou, Dieter Suter, and Jiangfeng Du, Experimental implementation of adiabatic passage between different topological orders, Physical Review Letters 113, 080404(2014).
[9] Zhaokai Li, Hui Zhou, Chenyong Ju, Hongwei Chen, Wenqiang Zheng, 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
[10] Jingwei Zhou, Pu Huang, Qi Zhang, Zixiang Wang, Tian Tan, Xiangkun Xu, Fazhan Shi, Xing Rong, S. Ashhab, and Jiangfeng Du, Observation of Time-domain Rabi Oscillations in the Landau-Zener Regime with a Single Electronic Spin, Physical Review Letters 112, 010503 (2014).
[11] Xing Rong, Jianpei Geng, Zixiang Wang, Qi Zhang, Chenyong Ju, Fazhan Shi, Chang-Kui Duan, and Jiangfeng Du, Implementation of dynamically corrected gates on a single electron spin in diamond, Physical Review Letters 112, 050503 (2014).
[12] G. Waldherr, Y. Wang, S. Zaiser, M. Jamali, T. Schulte-Herbrueggen, H. Abe, T. Ohshima, J. Isoya, J. F. Du, P. Neumann, and J. Wrachtrup, Quantum error correction in a solid-state hybrid spin register, Nature 506, 204 (2014).
[13] Christoph Mueller, Xi Kong, Jianming Cai, Kristina Melentijevic, Alastair Stacey, Matthew Markham, Daniel Twitchen, Junichi Isoya, Sebastien Pezzagna, Jan Meijer, Jiangfeng Du, Martin Plenio, Boris Naydenov, Liam McGuinness, and Fedor Jelezko, Nuclear magnetic resonance spectroscopy with single spin sensitivity, Nature Communications 5, 4703 (2014).
[14] Pu Huang, Pengfei Wang, Jingwei Zhou, Zixiang Wang, Chenyong Ju, Zimeng Wang, Yang Shen, Changkui Duan, and Jiangfeng Du, Demonstration of Motion Transduction Based on Parametrically Coupled Mechanical Resonators, Physical Review Letters 110, 227202 (2013).
[15] T. Staudacher, F. Shi, S. Pezzagna, J. Meijer, J. Du, C. A. Meriles, F. Reinhard, and J. Wrachtrup, Nuclear Magnetic Resonance Spectroscopy on a (5-Nanometer)3 Sample Volume, Science 339, 561 (2013).
[16] Gang-Qin Liu, Hoi Chun Po, Jiangfeng Du, Ren-Bao Liu, and Xin-Yu Pan, Noise-resilient quantum evolution steered by dynamical decoupling, Nature Communications 4, 2254 (2013).
[17] Nanyang Xu, 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).
[18] Jiahui Yang, Ya Wang, Zixiang Wang, Xing Rong, Chang-Kui Duan, Ji-Hu Su, and Jiangfeng Du, Observing Quantum Oscillation of Ground States in Single Molecular Magnet, Physical Review Letters 108, 230501 (2012). highlight article
[19] Xiangkun Xu, Zixiang Wang, Changkui Duan, Pu Huang, Pengfei Wang, Ya Wang, Nanyang Xu, Xi Kong, Fazhan Shi, Xing Rong, and Jiangfeng Du, Coherence-Protected Quantum Gate by Continuous Dynamical Decoupling in Diamond, Physical Review Letters 109, 070502 (2012).
[20] Friedemann Reinhard, Fazhan Shi, Nan Zhao, Florian Rempp, Boris Naydenov, Jan Meijer, Liam T. Hall, Lloyd Hollenberg, Jiangfeng Du, Ren-Bao Liu, and Jörg Wrachtrup, Tuning a Spin Bath through the Quantum-Classical Transition, Physical Review Letters 108, 200402 (2012).
[21] Pu Huang, Xi Kong, Nan Zhao, Fazhan Shi, Pengfei Wang, Xing Rong, Ren-Bao Liu, and Jiangfeng Du, Observation of an anomalous decoherence effect in a quantum bath at room temperature, Nature Communications 2, 570 (2011).
[22] Ya Wang, Xing Rong, Pengbo Feng, Wanjie Xu, Bo Chong, Ji-Hu Su, Jiangbin Gong, and Jiangfeng Du, Preservation of Bipartite Pseudoentanglement in Solids Using Dynamical Decoupling, Physical Review Letters 106, 040501 (2011).
[23] 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).
[24] Dawei Lu, Nanyang Xu, Ruixue Xu, 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).
[25] Jiangfeng Du, Nanyang Xu, 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
[26] 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).
[27] Fazhan Shi, Xing Rong, Nanyang Xu, Ya Wang, Jie Wu, Bo Chong, Xinhua Peng, Juliane Kniepert, Rolf-Simon Schoenfeld, Wolfgang Harneit, Mang Feng, and Jiangfeng Du, Room-Temperature Implementation of the Deutsch-Jozsa Algorithm with a Single Electronic Spin in Diamond, Physical Review Letters 105, 040504 (2010).
[28] Jiangfeng Du, Xing Rong, Nan Zhao, Ya Wang, Jiahui Yang, and R. B. Liu, Preserving electron spin coherence in solids by optimal dynamical decoupling, Nature 461, 1265 (2009).
[29] 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).
[30] Jiangfeng Du, Lingzhi Hu, Ya Wang, Jianda Wu, Meisheng Zhao, and Dieter Suter, Experimental Study of the Validity of Quantitative Conditions in the Quantum Adiabatic Theorem, Physical Review Letters 101, 060403 (2008).
[31] Xinhua Peng, Zeyang Liao, Nanyang Xu, Gan Qin, Xianyi Zhou, Dieter Suter, and Jiangfeng Du, Quantum Adiabatic Algorithm for Factorization and Its Experimental Implementation, Physical Review Letters 101, 220405 (2008).
[32] Jiangfeng Du, Thomas Durt, Ping Zou, Hui Li, L. C. Kwek, C. H. Lai, C. H. Oh, and Artur Ekert, Experimental quantum cloning with prior partial information, Physical Review Letters 94, 040505 (2005).
[33] Zhi Zhao, An-Ning Zhang, Yu-Ao Chen, Han Zhang, Jiang-Feng Du, Tao Yang, and Jian-Wei Pan, Experimental demonstration of a nondestructive controlled-NOT quantum gate for two independent photon qubits, Physical Review Letters 94, 030501 (2005).
[34] Jiangfeng Du, Ping Zou, Mingjun Shi, Leong Chuan Kwek, Jian-Wei Pan, C. H. Oh, Artur Ekert, Daniel K. L. Oi, and Marie Ericsson, Observation of geometric phases for mixed states using NMR interferometry, Physical Review Letters 91, 100403 (2003).
[35] Jiangfeng Du, Hui Li, Xiaodong Xu, Mingjun Shi, Jihui Wu, Xianyi Zhou, and Rongdian Han, Experimental Realization of Quantum Games on a Quantum Computer, Physical Review Letters 88, 137902 (2002).

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