Address：

Rm. 9-109, Tsinghua-Rohm Electronic Engineering Hall

Tsinghua University, Beijing 100084, China

E-mail: qingc@tsinghua.edu.cn

Education：

2020-2025: Ph.D., Beihang University (BUAA)

2013-2020: B.S. & Master's Degree, Northeast Petroleum University

Working Experiences:：

2025~Now: Postdoc, Dept. of Electronic Engineering, Tsinghua University

Professional Experience：

Dr. Qing’s main research focused on integrated photon-atom systems. By designing multifunctional metasurfaces and combining them with thermal alkali metal atomic vapors, effective manipulation of atomic spectra and light fields was achieved respectively, with the relevant research results published in internationally journals. During the postdoctoral period, the research work centered primarily on metasurface-based MOT systems, further exploring the applications of metasurfaces in the field of cold atom manipulation.

Publications：

[1] Chen Qing, Jialong Cui, Lishuang Feng, Dengke Zhang. Thermal atoms facilitate intensity clipping between vectorial dual-beam generated by a single metasurface chip. Advanced Science, 2025, 12, 2416617.

[2] Dengke Zhang and Chen Qing. Tailoring sub-doppler spectra of thermal atoms with a dielectric optical meta-surface chip. Laser Photonics Reviews, 2024, 18(7), 2301276.

[3] Chen Qing, Lishuang Feng, and Dengke Zhang. Laser Frequency Stabilization with a Metasurface Chip Through Atomic Spectral Manipulation. Chinese Optics Letters, 2025, 23(3), 033601.

[4] Chen Qing and Dengke Zhang. “Application of metasurface chip to laser frequency stabilization in atomic rubidium.”Progress In Electromagnetics Research Symposium (PIERS). (2024)

[5] Tian Tian, Chen Qing, Yuxuan Liao, Jiajun Zhu, Yongzhuo Li, Xue Feng, Dengke Zhang， Yidong Huang, Polarization Decoupling Multi-Port Beam-Splitting Metasurface for Miniaturized Magneto-Optical Trap. Advanced Science, 2025, e06289.

[6] Jialong Cui, Chen Qing, Lishuang Feng, Dengke Zhang, Exploiting the combined dynamic and geometric phases for optical vortex beam generation using metasurfaces, Nanophotonics, 2025, 14, 635-646.