彭新华 教授
发布人:芮莹  发布时间:2017-06-29   动态浏览次数:1511



姓名:

彭新华  教授

工作单位:

中国科学技术大学近代物理系

中国科学院微观磁共振重点实验室

电话:

0551-63602439

E-mail:

xhpeng@ustc.edu.cn

 

彭新华,女,1978年月生于湖南。中国科学技术大学教授,中国科学院百人计划择优支持者,国家杰出青年科学基金获得者,当选教育部“长江学者奖励计划”青年学者(2015年度)。2003年获中科院武汉物理与数学研究所理学博士学位,一直致力于核磁共振量子计算的实验研究,在量子算法、量子模拟以及量子力学基本问题测试等重要课题方面开展了系统性的研究,取得了一系列对推动学科领域发展有实质性贡献的研究成果。迄今为止,累计发表Nature Physics  

1篇, SCI论文74篇(其中Phys. Rev. Lett. 14篇),累计他引约1500次。近5年共发表SCI论文35篇。其成果曾入选中国高校十大科技进展(2009年),曾获得霍英东教育基金会第十三届高校青年教师奖(2012年)、第十二届中国青年女科学家奖(2015年)等。


  • 学历:

19949月-19986月,湖南师范大学,物理系,理学学士。

19989月-20036月,中科院武汉物理与数学研究所,理学博士。


  • 主要工作经历:

20038月-20058,德国多特蒙德大学,洪堡学者。

20059月-20083,德国多特蒙德大学,研究员。

20084月-至今,中国科学技术大学近代物理系,教授、博士生导师。



  • 目前主持的主要科研项目:

1

《量子计算与量子模拟》国家自然科学基金杰出青年科学基金项目,2015.01-2019.12

2

《自旋系统的量子操控与相干集成研究》青年973项目,2014.01-2017.12

 

  • 代表性研究论文 :(按年代倒序排列,粗体突出本人和期刊名)

  1.  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, Published online, doi:10.1038/nphys4281(2017).

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

  3.  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).

  4. 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

  5. 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).

  6. 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

  7. 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).

  8. 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).

  9. 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).

  10. 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

  11. 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).

  12. 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).

  13. 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).

  14. 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).

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