Job Title: Professor
School/Institute:State Key Lab of Quantum Optics and Quantum Optics Devices, Institute of Laser Spectroscopy, Shanxi University, Taiyuan
ZHANG Linjie is a professor and doctoral advisor at State Key Laboratory of Quantum Optics and Quantum Optics Devices, Institute of Laser Spectroscopy, Shanxi University. From Dec. 2011 to Jun. 2012, as visiting scholar followed by Prof. Mark saffman at University of Wisconsin-madison in USA. Currently ZHANG devoted to Rydberg atom-based precision measurement and sensing of microwave electric field. In 2015, won the second prize of Shanxi Provincial Natural Science Award. As major member of "100-Talent Programm", major at the quantum precision measurement and quantum simulation. Zhang LJ have more than 60 papers published at top journal such as Nature Physics, Physical Review A and Optics Express. Moreover, Zhang LJ have more than 16 Chinese invention patent, US patent. In 2020, Our work, which related with “Quantum precision measurement of microwave electric field based on Rydberg atoms”, was selected as“ Top 10 advances in science and technology in Chinese university" by Ministry of Education of China, and was nominated for "Top 10 Social Influence Events in the field of optics in 2020"(Light 10).
Shanxi University, Insititue of laser spectroscopy, Atom and Molecule Physics , Ph.D
Shanxi university, Insititue of laser spectroscopy, Optics, Master Degree
 1992.09 to 1996.07
Shanxi University, Department of Electronics Information and Engineering, Bachelor of Opto-electronics.
 Quantum Precision and Sensing of microwave electric field
 Quantum Simulation based on Ultracold Atoms
 2019.12-Now: Institute of Laser Spectroscopy, Shanxi University, Professor
 2010.09-2019.12: Institute of Laser Spectroscopy, Shanxi University, Associate Professor
 1996.07-2010.09: Department of Physics and Electronics Engineering, Shanxi University, Lecturer
Grants and Projects:
 The National Natural Science Foundation of China: “Quantum bit manipulation based on dipole blocking effect of Rydberg atom”, Grant No. 61378013, 2014/01-2017/12.
 The National Natural Science Foundation of China: “Instruments of high spatial resolution imaging of microwave electric field based on Rydberg atoms”, Grant No. 61827824, 2019/01-2023/12.
 Jing MY，Hu Y, Ma J, Zhang LJ*, etal.,Atomic superheterodyne receiver based on microwave-dressed Rydberg spectroscopy ,Nature Physics ,6, 911-915, 2020.
 Zhang LJ*, Liu JS, etal. ,Detuning radio-frequency electrometry using Rydberg atoms in a room-temperature vapor cell, Laser physics 29, 035701, 2019.
 Zhang LJ*,Bao SX,etal. Interplay between optical pumping and Rydberg EIT in magnetic fields, Optics Express , 26,23,29931, 2018.
 Bao SX, Zhang H, Zhang LJ*, etal., Polarization spectra of Zeeman sublevels in Rydberg electromagnetically induced transparency,Phys.Rev.A , 94,043822, 2016.
 Zhang LJ*, Liu JS, Zhang Hao, etal. ,Detuning radio-frequency electrometry using Rydberg atoms in a room-temperature vapor cell, Laser Physics, 29,1,035701, 2019.
 Zhang LJ*, Liu JS, Zhang Hao, etal., Vapor cell geometry effect on Rydberg atom-based microwave electric field measurement, Chin.Phys.B, 28,8, 084211, 2019.
 Zhang LJ*, Yang WG, Zhang Hao, etal.,The power stability of a fiber amplifier based on a multifunction card and PID control program, Laser Physics, 26,065001, 2016.