姓名：张元 职称：讲师 最终学历：博士
地址: 郑州市二七区大学路75号，郑州大学南校区23号楼，450052
邮箱: yzhuaudipc@zzu.edu.cn
一、研究方向
（1）表面等离激元纳/皮米腔中分子的表面增强拉曼散射
（2）光晶格原子钟中基于超辐射的精密频率测量
（3）基于金刚石NV色心的微波激射和超辐射
二、学习与工作经历
2005.09–2009.07 本科，西北大学物理系，物理基地班
2009.09–2011.06 硕士，北京科技大学，数理学院
2011.09–2015.08 博士，德国柏林洪堡大学，物理系
2015.09–2018.09 博后，丹麦奥胡斯大学，物理系
2018.10–2019.10 博后，西班牙圣塞巴斯蒂安国际物理中心
2019.10–现在 讲师，郑州大学，物理学院
三、发表论文
1.E. Stourm, Y. Zhang, M. Lepers, R. Guérout, J. Robert, S. N. Chormaic, K. M?lmer and E. Brion, Spontaneous Emission of a Sodium Rydberg Atom close to an Optical Nanofibre, J. Phys. B At Mol Opt 52, 045503 (2019)
2.K. Debnath, Y. Zhang and K. M?lmer, Collective dynamics of inhomogeneously broadened emitters coupled to an optical cavity with narrow linewidth,Phys. Rev. A100, 053821 (2019)
3.Y-X Zhang, Y. Zhang and K. M?lmer, Surface Plasmon Launching by Polariton Superradiance, ACS Photonics 6, 871 (2019)
4.Y. Zhang, Y-X. Zhang and K. M?lmer, Monte-Carlo Simulations of Superradiant Lasing, New J. Phys. 20, 112001 (2018)
5.K. Debnath, Y. Zhang and K. M?lmer, Lasing in the Superradiant Crossover Regime, Phys. Rev. A 98, 063837 (2018)
6.Y-X Zhang, Y. Zhang and K. M?lmer, Dicke Phase Transition in a Disordered Emitter-Graphene Plasmon System, Phys. Rev. A 98, 03382 (2018)
7.Y. Zhang and K. M?lmer, Amplified Emission and Lasing in a Plasmonic Nano-laser with Many Three-level Molecules, Phys. Rev. A 97, 013837 (2018)
8.Y. Zhang and K. M?lmer, Analysis of a Multi-mode Plasmonic Nano-laser with an Inhomogeneous Distribution of Molecular Emitters, J. Phys. Chem. C 121, 15339 (2017)
9.Y. Zhang, K. M?lmer and V. May, Theoretical Study of Plasmonic Lasing in Junctions with Many Molecules, Phys. Rev. B 94, 045412 (2016)
10.Y. Zhang and V. May, Theory of Molecule Metal Nano-particle Interaction: Quantum Description of Plasmonic Lasing, J. Chem. Phys. 142, 224702 (2015)
11.Y. Zhang and V. May, Plasmon Enhanced Molecular Electroluminescence: Effects of Nonlinear Excitation and Molecular Cooperativity Phys. Rev. B 89, 245441 (2014)
12.Y. Zhang, Y. Zelinskyy and V. May, Plasmon Enhanced Electroluminescence of a Single Molecule: A Theoretical Study Phys. Rev. B 88, 155426 (2013)
13.Y. Zelinskyy, Y. Zhang and V. May, Photo-induced Dynamics in a Molecule Metal Nanoparticle Complex: Mean-Field Approximation Versus Exact Treatment of the Interaction J. Chem. Phys. 138, 114704 (2013)
14.G. Kyas, Y. Zelinskyy, Y. Zhang and V. May, Spatio-Temporal Excitation Energy Localization in Supramolecular Complex Coupled to a Metal-Nanoparticle Ann. Phys. (Berlin), 525, 189 (2013)
15.Y. Zelinskyi, Y. Zhang and V. May, Supramolecular Complex Coupled to a Metal Nanoparticle: Computational Studies on the Optical Absorption J. Phys. Chem. A 116, 11330 (2012)
16.Y. Zhang, Y. Zelinskyy and V. May, Time and Frequency Resolved Emission of Molecular Systems Coupled to a Metal Nanoparticle J. Nanophot. 6, 063533 (2012)
17.Y. Zhang, Y. Zelinskyy and V. May, Plasmon Enhanced Single Molecule Electroluminescence: A Computational Study J. Phys. Chem. C 116, 25962 (2012)
18.Y. Zhang, Y. Zelinskyy, G. Kyas and V. May, Theory of Metal Nano-Particle Affected Optical and Transport Properties in Supramolecular Complexes in the book "Ultrafast Biomolecular Dynamics at the Nanoscale" published by Pan Stanford Publishing, Singapore.