张临杰，量子光学与光量子器件国家重点实验室，山西大学激光光谱研究所，教授，博士研究生导师。

2010年于山西大学获得原子与分子物理理学博士学位。美国Wisconsin-Madison大学访问学者。目前主要从事基于里德堡原子电场量子精密测量与传感、超冷里德堡原子量子模拟方面的工作。

主持承担国家重点研发计划项目、军科委基础加强重点项目及国家基金重大仪器研制项目等30余项，入选山西省“**”量子精密测量创新团队。在Nature Physics、Physical Review A、Optics Express等国内外学术期刊发表论文60余篇，获中国国家发明专利17项，美国发明专利1项，欧盟发明专利1项。2014年荣获山西省教育厅自然科学奖一等奖。2015年获得山西省科学技术奖二等奖。“基于里德堡原子的微波电场精密测量”工作入选教育部2020年度 “中国高校科技十大进展”，入围荣获《Light: Science & Applications》杂志与科学网联合发布的“2020中国光学领域十大社会影响力事件（Light10）”。

主要社会兼职

       中国仪器仪表学会光学仪器分会理事；山西省光学学会监事长；山西大学先进光谱技术国防创新中心负责人。

近期代表性的论文

28. Atomic superheterodyne receiver based on microwave-dressed Rydberg spectroscopy Nature Physics (2020) 6, 911-915

27. Dephasing effect of Rydberg states on trap loss spectroscopy of cold atoms JOSA B (2022) 39(8), 2032

26. Theoretical Investigation on the Mechanism and Law of Broadband Terahertz Wave Detection Using Rydberg Quantum State IEEE Photonics Journal (2022) 14(3), 5931808

25. 基于原子的射频识别标签近场散射场矢量测量 光谱学与光谱分析（2022）42（1），198

24．High bandwidth laser frequency locking for wideband noise suppression Optics Express (2021) 29(5), 7916

23. 基于里德伯原子电磁诱导透明效应的光脉冲减速 物理学报(2021) 70(10),  103201

22. Detuning radio-frequency electrometry using Rydberg atoms in a room-temperature vapor cell Laser physics (2019) 29, 035701

21. Interplay between optical pumping and Rydberg EIT in magnetic fields Optics Express (2018) 26(23), 29931

20. Rydberg 原子的电磁诱导透明光谱的噪声转移特性 物理学报 (2018) 67(21), 213201

19. Tunable frequency stabilization to Zeeman sublevel transitions between an intermediate state and Rydberg states Laser Physics (2017) 27,015701(6)

18. Polarization spectra of Zeeman sublevels in Rydberg electromagnetically induced transparency Physical Review A (2016) 94, 043822(6)

17. The power stability of a fiber amplifier based on a multifunction card and PID control program Laser Physics 26, 065001(4) (2016)

16. Splitting of an Electromagnetically Induced Transparency Window of a Cascade System with ¹³³Cs Rydberg Atoms in a Static Magnetic Field J. Phys. Soc. Jpn. 84,104301(5) (2015)

15. Atom-interferometric measurement of Stark level splittings Phys. Rev. A 92,033619(5) (2015)

14. Autler-Townes spectroscopy with interaction-induced dephasing  Phys.Rev.A 90, 043849 (5) (2014)

13. Autler-Townes splitting of a cascade system in ultracold cesium Rydberg atoms Phys.Rev.A 87, 033835, (2013)

12. Stark-induced L-mixing interferences in ultracold cesium Rydberg atoms Phys.Rev.A 87, 033405 (2013)

11. Direct measurement of laser-induced frequency shift rate of ultracold cesium molecules by analyzing losses of trapped atoms Appl. Phys. Lett. 101, 131114 (2012)

10.Numerically Calculated Stark Structures of Cesium Rydberg Atom and Experimental Observation in an Ultracold Gas J. Phys. Soc. Jpn. 81,044302 (2012)

9. Collisional loss of cesium Rydberg atoms in a magneto-optical trap Phys. Rev. A 83, 042711 (2011)

8. Excitation Dynamics of Ultracold Cesium nS Rydberg Atoms J. Phys. Soc. Jpn. 80, 104301(2011)

7. Evolution of the pairs of ultracold Rydberg atoms in the repulsive potential Optics Express, Vol. 18, No. 11, 11599(2010)

6. Many-body ionization of a dense Rydberg gas in repulsive potential J. Phys.Soc.Jpn, Vol. 79, No. 5, 054301(2010)

5. Recombination during expansion of ultracold plasma Chin. Phys. B Vol. 19, No. 4 043202, (2010)

4. High sensitivity spectroscopy of cesium Rydberg atoms using electromagnetically induced transparency Optics Express Vol. 17, No. 18，15821(2009)

3. Lifetime measurement of ultracold caesium Rydberg states J. Phys. B: At. Mol. Opt. Phys. 42, 145303(2009)

2. Measurement of quantum defects of nS and nD states using field ionization spectroscopy in ultracold  cesium atom Chin.Phys. B, Vol 18, No 5, 1838-1842 (2009）

1. Experimental Research of Spontaneous Evolution from Ultracold Rydberg Atoms to Plasma Chin.Phys.Lett. , Vol.25,1362(2008)