严以京


/uploads/image/2019/04/28/de9df6986553437b9ac0fda6a835a7b7.jpg 姓  名: 严以京(中组部千人计划)
 出生日期: 福建 1955年4月3日
 地  址:安徽 合肥 中国科学技术大学(东区)微尺度物质科学国家研究中心 15楼 15007室 230026
 电  话:86-551-3607597
 传  真:86-551-3607597
 电  邮:yanyj@ustc.edu.cn




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 教育与科研经历
  1978.02-1982.01复旦大学化学系,化学专业,学士学位
  1982.09-1989.02

美国罗彻斯特大学化学系,物理化学专业,博士学位

  1988.02-1990.04美国罗彻斯特大学化学系,副研究员
  1990.05-1992.05美国加州大学圣地亚哥分校化学系,博士后研究员
  1992.06-1994.01美国加州大学圣地亚哥分校化学系和非线性科学研究所,研究型副教授
  1994.02-1997.12香港科技大学化学系,助理教授
  1998.01-2004.06香港科技大学化学系,副教授
  2004.07香港科技大学化学系,教授
  2010.04 - 现在化学物理系和合肥微尺度物质科学国家研究中心教授,博士生导师


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 获奖情况
  2013American Physics Society Fellow
  2003

中国科学院海外杰出科学家

  1999国家自然科学基金委海外杰出青年科学家


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 主要社会和学术兼职
  编委:

Chinese Journal of Chemical Physics (2002--)

Journal of Theoretical and Computational Chemistry (2002--)
  杂志审稿人:

Physical Review A & B;

Journal of Chemical Physics;

Journal of Physical Chemistry A & B;

Chemical Physics Letters;

Chemical Physics;

Journal of Physics A: Mathematical and General;

Journal of American Optical Society B;

Physics Letters A;

Computer Physics Communications;

Nanoscale


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 研究方向

  开放系统, 包括声子,电子和自旋热库的量子力学研究. 发展适用于一系列复杂体系的理论,模型和计算方法: 量子耗散和多粒子动力学; 强关联电子体系; 生物体系的量子相干现象; 长程电荷转移和复杂分子体系的量子输运; 量子光学和光谱学; 溶液中的化学反应动力学; 量子信息与量子测量理论等。


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 在研科研项目
  1.2017.01-2021.12 开放量子体系的理论与方法 基金委重点
  2.2016.07-2017.06 生命过程中的生物分子结构与动力学研究 中科院合肥大科学中心高端用户培育基金
  3.2016.07-2021.06 基于大科学装置群的多尺度成像数据集成与理论模拟研究 科技部重点研发计划


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 代表性论文
  1.Correlated Driving and Dissipation in Two-Dimensional Spectroscopy”, Jian Xu, Houdao Zhang, Rui-Xue Xu, and Y. J. Yan, J. Chem. Phys. 138, 024106 (2013).
  2.Undetectable Quantum Transfer through a Continuum”, Jing Ping, Yin Ye, Luting Xu, X. Q. Li, Y. J. Yan, and Shmuel Gurvitz, Phys. Lett. A 377, 676-681 (2013).
  3.Hierarchical Liouville-Space Approach to Nonequilibrium Dynamic Properties of Quantum Impurity Systems”, ShiKuan Wang, X. Zheng, J. S. Jin, and Y. J. Yan, Phys. Rev. B 88, 035129 (2013).
  4.Modified Zusman Equation for Quantum Solvation Dynamics and Rate Processes”, Houdao Zhang, Jian Xu, Rui-Xue Xu, and Y. J. Yan, in Reaction Rate Constant Computations: Theories and Applications, edited by Ke-Li Han and Tian-Shu Chu, RSC Theoretical and Computational Chemistry Series No.6, Chapter 13, pp. 319-336 (2013).
  5.Kondo Memory in Driven Strongly Correlated Quantum Dots”, X. Zheng, Y. J. Yan, and Massimiliano Di Ventra, Phys. Rev. Lett. 111, 086601 (2013).
  6.Non-Markovian Response of Ultrafast Coherent Electronic Ring Currents in Chiral Aromatic Molecules in a Condensed Phase”, H. Mineo, S. H. Lin, Y. Fujimura, Jian Xu, R. X. Xu, and Y. J. Yan, J. Chem. Phys. 139, 214306 (2013).
  7.Quantum Dynamics in Dissipative Molecular Systems”, Houdao Zhang, Jian Xu, Rui-Xue Xu, and Y. J. Yan, in Advances in Multi-Photon Processes and Spectroscopy, 21, Chapter 5, pp. 175-207 (2014).
  8.Theory of Open Quantum Systems with Bath of Electrons and Phonons and Spins: Many-Dissipaton Density Matrixes Approach”, YiJing Yan, J. Chem. Phys. 140, 054105 (2014).
  9.Improved Master Equation Approach to Quantum Transport: From Born to Self-Consistent Born Approximation”, J. S. Jin, Jun Li, Yu Liu, X. Q. Li, and Y. J. Yan, J. Chem. Phys. 140, 244111 (2014).
  10.Dynamic Protein Conformations Preferentially Drive Energy Transfer along the Active Chain in the Photosystem II Reaction Center”, Lu Zhang, Daniel-Adriano Silva, Houdao Zhang, Alexander Yue, Y. J. Yan, and X. H. Huang, Nature Comm. 5,4170 (2014).
  11.Hierarchical Equations of Motion for an Impurity Solver in Dynamical Mean-Field Theory”, Dong Hou, Rulin Wang, Xiao Zheng, NingHua Tong, JianHua Wei, and Y. J. Yan, Phys. Rev. B 90, 045141 (2014).
  12.Nonadiabatic Molecular Dynamics Simulation: An Approach based on Quantum Measurement Picture”, Wei Feng, Luting Xu, Xin-Qi Li, Weihai Fang, and YiJing Yan, AIP Advances 4, 077131 (2014).
  13.Quantum Transfer through a non-Markovian Environment under Frequent Measurements and Zeno Effect”, Luting Xu, Yunshan Cao, Xin-Qi Li, YiJing Yan, and Shmuel Gurvitz, Phys. Rev. A 90, 022108 (2014).
  14.Nonperturbative Spin–Boson and Spin–Spin Dynamics and Nonlinear Fano Interferences: A Unified Dissipaton Theory based Study”, Hou-Dao Zhang, Rui-Xue Xu, Xiao Zheng, and Y. J. Yan, J. Chem. Phys. (2015).
  15.Improving the Efficiency of Hierarchical Equations of Motion Approach and Application to Coherent Dynamics in Aharonov–Bohm Interferometers”, D. Hou, S. K. Wang, R. L. Wang, L. Z. Ye, R. X. Xu, X. Zheng, and Y. J. Yan, J. Chem. Phys. 142, 104112 (2015).
  16.Local Temperatures of Strongly-Correlated Quantum Dots out of Equilibrium”, L. Z. Ye, D. Hou, X. Zheng, Y. J. Yan, and M. Di Ventra, Phys. Rev. B 91, 205106 (2015).
  17.Current Noise Spectra and Mechanisms with Dissipaton Equation of Motion Theory”, J. S. Jin, S. K. Wang, X. Zheng, and Y. J. Yan, J. Chem. Phys. 142, 234108 (2015).
  18.Onsets of Hierarchy Truncation and Self-Consistent Born Approximation with Quantum Mechanics Prescriptions Invariance”, Hou-Dao Zhang and Y. J. Yan, J. Chem. Phys. 143, 214112 (2015).
  19.Dissipaton Equation of Motion for System-and-Bath Interference Dynamics”, R. X. Xu, H. D. Zhang, X. Zheng, and Y. J. Yan, Science China Chem. 58 (12), 1816-24 (2015)
  20.Anisotropy Induced Kondo Splitting in a Mechanically Stretched Molecular Junction: A First-Principles based Study”, Xiaoli Wang, Dong Hou, Xiao Zheng, and Y. J. Yan, J. Chem. Phys. 144, 034101 (2016).
  21.Kinetic Rate Kernels via Hierarchical Liouville-Space Projection Operator Approach”, H. D. Zhang and Y. J. Yan, J. Phys. Chem. A 120, 3241-5 (2016, Ronnie Kosloff Festschrift).
  22.Dissipation Equation of Motion Approach in Quantum Mechanics of Open Systems”, Y. J. Yan, J. S. Jin, R. X. Xu, and X. Zheng, Front. Phys. 11, 110306 (2016).
  23.HEOM-QUICK: A Program for Accurate, Efficient and Universal Characterization of Strongly Correlated Quantum Impurity Systems”, LvZhou Ye, XiaoLi Wang, Dong Hou, Rui-Xue Xu, Xiao Zheng, and Y. J. Yan, WIREs Comp. Mol. Sci. 6, 608-638 (2016).
  24.Solvent-Induced Polarization Dynamics and Coherent Two-Dimensional Spectroscopy: Dissipaton Equation of Motion Approach”, H. D. Zhang, Qin Qiao, R. X. Xu, and Y. J. Yan, Chem. Phys. 481, 237–244 (2016, Vladimir Y. Chernyak Festschrift).
  25.Effects of Herzberg–Teller Vibronic Coupling on Coherent Excitation Energy Transfer”, Hou-Dao Zhang, Qin Qiao, Rui-Xue Xu, and YiJing Yan, J. Chem. Phys. 145, 204109 (2016).
  26.Minimum-Exponents Ansatz for Molecular Dynamics and Quantum Dissipation”, Jin-Jin Ding, Hou-Dao Zhang, Yao Wang, Rui-Xue Xu, Xiao Zheng, and YiJing Yan, J. Chem. Phys. 145, 204110 (2016).
  27.Thermodynamic Meaning of Local Temperature of Nonequilibrium Open Quantum Systems”, LvZhou Ye, Xiao Zheng, Y. J. Yan, and M. Di Ventra, Phys. Rev. B 94, 245105 (2016).


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