[1]      Yong Zeng, Zhuo Fu, Yang-Yang Liu, Xiao-Dong He, Min Liu, Peng Xu*, Xiao-Hong Sun, and Jin Wang, Stabilizing a laser frequency by the Pound–Drever–Hall technique with an acousto-optic modulator. Appl. Opt.60(5), 1159-1163 (2021).

[2]      Cheng Sheng, Jiayi Hou, Xiaodong He*, Peng Xu, Kunpeng Wang, Hun Zhuang, Xiao Li, Min Liu, Jin Wang, and Mingsheng Zhan*, Efficient preparartion of two-dimensional defect-free atom arrays with near-fewest sorting-atom moves, Phys. Rev. Research3, 023008(2021)

[3]      Zhan-Wei Yao,Hong-Hui Chen,Si-Bin Lu,Run-Bing Li,* Ze-Xi Lu,Xiao-Li Chen,Geng-Hua Yu, Min Jiang,2 Chuan Sun,3 Wei-Tou Ni,Jin Wang ,and Ming-Sheng Zhan†, Self-alignment of a large-area dual-atom-interferometer gyroscope using parameter-decoupled phase-seeking calibrations, Phys. Rev. A103, 023319 (2021)

[4]      Meng He, Xi Chen,* Jie Fang, Guiguo Ge, Jinting Li, Danfang Zhang, Lin Zhou, Jin Wang,† and Mingsheng Zhan,‡ Phase shift of double-diffraction Raman interference due to high-order diffraction states, Phys. Rev. A103, 063310 (2021)

[5]      Yang-Yang Liu(刘杨洋), Zhuo Fu(付卓), Peng Xu(许鹏)^†, Xiao-Dong He(何晓东), Jin Wang(王谨), and Ming-Sheng Zhan(詹明生)^‡，Spectral filtering of dual lasers with a high-finesse length-tunable cavity for rubidium atom Rydberg excitation，Chin. Phys. B, 30(7): 074203(2021)

[6]      Yangyang Liu, 1,2,3 Yuan Sun,* Zhuo Fu, Peng Xu† Xin Wang, Xiaodong He,  Jin Wang, and Mingsheng Zhan, Infidelity Induced by ground-Rydberg decoherence of the control qubit in a two-qubit Rydberg-blockade gate, Phys. Rev. Applied 15, 054020(2021)

[7]      Chuan He, Sitong Yan, Lin Zhou*, Sachin Barthwal, Rundong Xu, Chao Zhou, Yuhang Ji, Qi Wang, Zhuo Hou, Jin Wang, Mingsheng Zhan*, All acousto-optic modulator laser system for a 12 m fountain-type dual-species atom interferometer. Applied Optics 60(17), 5258-5265(2021)

[8]      Yu-Hang Ji, Lin Zhou*, Si-Tong Yan, Chuan He, Chao Zhou, Sachin Barthwal, Feng Yang, Wei-Tao Duan,Wen-Dong Zhang, Run-Dong Xu, Qi Wang, Dong-Xu Li, Jia-Hong Gao, Xi Chen, Jin Wang*, and Ming-Sheng Zhan, An actively compensated 8 nT-level magnetic shielding system for 10-m atom interferometer, Rev. Sci. Instrum. 92, 083201 (2021)

[9]      Lin Zhou, Chuan He, Si-Tong Yan, Xi Chen, Dongfeng Gao, Weitao Duan, Yuhang Ji, Rundong Xu, Biao Tang, Chao Zhou, Sachin Barthwal, Qi Wang, Zhuo Hou, Zongyuan Xiong, Yuanzhong Zhang, Min Liu, Wei-Tou Ni, Jin Wang*, Mingsheng Zhan*, Joint mass-and-energy test of the equivalence principle at 10^-10level using atoms with specified mass and internal energy, Phys. Rev. A, 104(2), 022822 (2021).

[10]   KAGRA Collaboration(T. Akutsu, et al.), Vibration isolation systems for the beam splitter and signal recycling mirrors of the KAGRA gravitational wave detector，Class. Quantum Grav. 38 065011 (2021)

[11]   KAGRA Collaboration(T. Akutsu,et al.), Overview of KAGRA: Detector design and construction history, Progress of Theoretical and Experimental Physics  2021(5), 05A101 (2021)

[12]KAGRA Collaboration(T. Akutsu,, et al.), Overview of KAGRA: KAGRA science, Progress of Theoretical and Experimental Physics  2021(5), 05A103 (2021)

[13]   KAGRA Collaboration(R. Abbott, et al.), Diving below the Spin-down Limit: Constraints on Gravitational Waves from the Energetic Young Pulsar PSR J0537-6910, Astrophys. J. Lett. 913(2), L27(2021)

[14]   KAGRA Collaboration(R. Abbott, et al.), Constraints on Cosmic Strings Using Data from the Third Advanced LIGO-Virgo Observing Run, Phys. Rev. Lett.126(24), 241102 (2021).

[15]   KAGRA Collaboration(R. Abbott, et al.), Observation of Gravitational Waves from Two Neutron Star-Black Hole Coalescences, Astrophys. J. Lett. 915(1), L5(2021).

[16]   KAGRA Collaboration(R. Abbott, et al.), Upper limits on the isotropic gravitational-wave background from Advanced LIGO and Advanced Virgo's third observing run, Phys. Rev. D104(2), 022004(2021).

[17]   KAGRA Collaboration(R. Abbott, et al.), Search for anisotropic gravitational-wave backgrounds using data from Advanced LIGO and Advanced Virgo's first three observing runs, Phys. Rev. D 104(2), 022005(2021).

[18]   R. Abbott et al. (LIGO Scientific Collaboration, Virgo Collaboration, and KAGRA Collaboration)，All-sky search for long-duration gravitational-wave bursts in the third Advanced LIGO and Advanced Virgo run，Phys. Rev. D104, 102001(2021)

[19]  R. Abbott et al. (LIGO Scientific Collaboration, Virgo Collaboration, and KAGRA Collaboration)，All-sky search for continuous gravitational waves from isolated neutron stars in the early O3 LIGO data，Phys. Rev. D104, 082004(2021)

[20]  Liangwei Wang, Jia Guan, Chengjie Zhu*, Runbing Li*, Jing Shi*, A low noise, high fidelity cross phase modulation in multi-level atomic medium, Chin. Phys. B 30(11), 114204(2021)

[21  Bertoldi, A; Bongs, K; Bouyer, P; Buchmueller, O; Canuel, B; Caramete, LI; Chiofalo, ML; Coleman, J; De Roeck, A; Ellis, J; Graham, PW; Haehnelt, MG; Hees, A; Hogan, J; von Klitzing, W; Krutzik, M; Lewicki, M; McCabe, C; Peters, A; Rasel, E; Roura, A; Sabulsky, D; Schiller, S; Schubert, C; Signorini, C; Sorrentino, F; Singh, Y; Tino, GM; Vaskonen, V; Zhan, MSAEDGE: Atomic experiment for dark matter and gravity exploration in space,   Experimental Astronomy  51(3), 1417-1426(2021)

[22] Liang, SY; Zhang, TX; Guan, H; Lu, QF; Xiao, J; Chen, SL; Huang, Y; Zhang, YH; Li, CB; Zou, YM; Li, JG; Yan, ZC; Derevianko, A; Zhan, MS; Shi, TY; Gao, KL     Probing multiple electric-dipole-forbidden optical transitions in highly charged nickel ions, Phys. Rev. A 103(2) 022804(2021)