Atom interferometers and applications

The gravity measurement instruments have a wide application in the area of resource and environmental exploration. Atom interferometer is a new kind of gravity measurement instruments. On the basis of the atom interferometer work, we will carried out the study of atom gravity measurement instrument. 

Equivalence Principle test based atom interferometers

The development of experimental techniques of atom interferemeters provide a new way for Weak Equivalence Principle test in the ground laboratory based on matter waves. Atom interferometry has more advantages than neutron interferometer in Equivalence Principle test experiments. Cold atoms have a small speed, the sensitivity of cold atom interferometer is much better than that of neutron interferometer; the coherence of cold atoms are bettter, cold atoms can be used to measure g with high accuracy. It is possible to test Equivalence Principle with higher precision in the laboratory by using atom interferometers.

1993.9 - 1999.5 Anhui Institute of Optics and Fine Mechanics Institute, CAS, Ph. D

1989.9 - 1993.7 Northwest Normal University, Bachelor

2019.9 -   Innovation Academy for Precision Measurement Science and Technology, Chinese Academy of Scieces, Professor

2004.2 - 2019.8  Wuhan Institute of Physics and Mathematics Institute, Professor

2006.9 - 2007.2 Stanford University, Visiting scholar

2001.7 - 2004.1, Wuhan Institute of Physics and Mathematics, Chinese Academy of Sciences, Associate Professor

1999.7 - 2001.6 Wuhan Institute of Physics and Mathematics, Chinese Academy of Sciences, Post-doctoral

1999.6 - 1999.10 Imperial College, Visiting scholar

   

[1]   J. Wang*, Yifu Zhu, K. J. Jiang, and M. S. Zhan, Bichromatic electromagnetically induced transparency in cold rubidium atoms, Phys. Rev. A 68, 063810(2003)

[2]   J. Wang*, L. B. Kong, X. H. Tu, K. J. Jiang, K. Li, H. W. Xiong, Yifu Zhu, M. S. Zhan, Electromagnetically induced transparency in multi-level cascade scheme of cold rubidium atoms, Phys. Lett. A 328(6): 437-443(2004)

[3]   Wang Jin, Tu Xian-Hua, Jiang Kai-Jun, Li Ke, Kong Ling-Bo, Xiong Hong-Wei, Zhan Ming-Sheng, Experimental investigation of electromagnetically induced transparency in D2 line of hot and cold ⁸⁵Rb atoms, Chin. J. At. Mol. Phys., 21(4): 535-539(2004)

[4]   Jiang Kai-Jun, Li Ke, Wang Jin, Zhan Ming-Sheng, Optical Guiding of Trapped Atoms by a Blue-Detuned Hollow Laser Beam in the Horizontal Direction, Chin. Phys. Lett. 22(2): 324～327(2005)

[5]   L. B. Kong*, J. Wang, X. H. Tu, L. H. Wen, M. S. Zhan*, Slow dark optical solitons caused by cross talk among optical transitions, Opt. Commun., 255(4-6), 331-337(2005)

[6]   L. B. Kong*, X. H. Tu, J. Wang, Yifu Zhu, and M. S. Zhan，Sub-Doppler spectral resolution in a resonantly driven four-level coherent medium, Opt. Commun., 269(2), 362-369(2007)

[7]   Wang Ping,  Li Run-Bing, Yan Hui, Wang Jin, Zhan Ming-Sheng*, Demonstration of a Sagnac Type Cold Atom Interferometer with Stimulated Raman Transitions，Chin. Phys. Lett., 24(1): 27-30(2007)

[8]   Yan Hui, Yang Guoqing, Jin Wang*, Mingsheng Zhan, Laser Frequency Stabilization Based on Sagnac Interferometric Spectroscopy, Chin. Opt. Lett., 6(4): 307-309(2008)

[9]   R. B. Li, P. Wang, H. Yan, J. Wang, M. S. Zhan*, Magnetic field dependence of coherent population transfer by the stimulated Raman transition, Phys. Rev. A 77(3), 033425(2008)

[10]       G. Q. Yang, H. Yan, T. Shi, J. Wang, M. S. Zhan*, Optically induced fictitious magnetic trap on atom chip, Phys. Rev. A 78(3), 033415(2008)

[11]       H. Yan, G. Yang, T. Shi, J. Wang*, and M. Zhan, Experimental demonstration of controllable double magneto-optical traps on an atom chip, J. Opt. Soc. Am. B 25(10), 1667-1672(2008)

[12]       Yan Hui, Yang Guo-Qing, Wang Jin* and Zhan Ming-Sheng, Directly Trapping Atoms in a U-Shaped Magneto-Optical Trap Using a Mini Atom Chip, Chin. Phys. Lett., 25(9): 3219-3222(2008)

[13]       Hui Yan, Guoqing Yang, Tao Shi, Jin Wang* and Mingsheng Zhan, Quantum gates with atomic ensembles on an atom chip, Phys. Rev. A 78(3): 034304(2008)

[14]       B. M. Xu, X. Chen, J. Wang*, M. S. Zhan, Realization of a single-beam mini magneto-optical trap: A candidate for compact CPT cold atom clocks，Opt. Commun. 281(23), 5819–5823(2008)

[15]       R. B. Li, L. Zhou, J. Wang*, M. S. Zhan, Measurement of the quadratic Zeeman shift of ⁸⁵Rb hyperfine sublevels using stimulated Raman transitions, Opt. Commun. 282(7), 1340–1344(2009)

[16]       Jin Wang, Lin Zhou, Run-Bing Li, Min Liu，Ming-Sheng Zhan *，Cold atom interferometers and their applications in precision measurements, Front. Phys. China, 4(2): 179–189(2009)

[17]       Xiaodong He, Peng Xu, Jin Wang, and Mingsheng Zhan*, Rotating single atoms in a ring lattice generated by a spatial light modulator, Opt. Express, 17 (23) , 21014-21021(2009)

[18]       Yan Hui, Yang Guo-Qing, Shi Tao, Wang Jin*, and Zhan Ming-Sheng, Production and guidance of pulsed atomic beams on chip, Chin. Phys. B，19(2): 023204(2010)

[19]       Dan Lin, Yan Hui, Wang Jin*, Zhan Ming-Sheng, Chip-Based Square Wave Dynamic Micro Atom Trap, Chin. Phys. Lett., 27(5): 053201(2010)

[20]       Xiaodong He, Peng Xu, Jin Wang, and Mingsheng Zhan*, High efficient loading of two atoms into a microscopic optical trap by dynamically reshaping the trap with a spatial light modulator, Opt. Express, 18(13): 13586-13592(2010)

[21]       Peng Xu, Xiaodong He, Jin Wang, and Mingsheng Zhan*, Trapping a single atom in a blue detuned optical bottle beam trap, Opt. Lett. 35(13): 2164–2166(2010)

[22]       Guoqing Yang, Xi Chen, Jin Wang*, and Mingsheng Zhan, Bichromatic laser frequency stabilization with Doppler effect and polarization spectroscopy, Chin. Opt. Lett., 8(11): 1095-1097(2010)

[23]       Chen Xi, Yang Guo-Qing, Wang Jin*, Zhan Ming-Sheng, Coherent population trapping-Ramsey interference in cold atoms, Chin. Phys. Lett., 27(11): 113201(2010)

[24]       G. Q. Yang, P. Xu, J. Wang*, Yifu Zhu, and M. S. Zhan, Four-wave mixing in a three-level bichromatic electromagnetically induced transparency system, Phys. Rev. A 82(4): 045804(2010)

[25]       Zhou Lin, Xiong Zong-Yuan, Yang Wei, Tang Biao, Peng Wen-Cui, Wang Yi-Bo, Xu Peng, Wang Jin, Zhan Ming-Sheng*, Measurement of local gravity via a cold atom interferometer, Chin. Phys. Lett., 28(1), 013701(2011)

[26]       Zheng Tan, Xianping Sun*, Jun Luo, Yong Cheng, Jin Wang and Mingsheng Zhan*, Narrowband switchable dual-passband atomic filter with four-wave mixing optical amplification, Chin. Opt. Lett., 9(2): 021405(2011)

[27]       L. Zhou, Z. Y. Xiong, W. Yang, B. Tang, W. C. Peng, K. Hao, R. B. Li, M. Liu, J. Wang*, M. S. Zhan*, Development of an atom gravimeter and status of the 10-meter atom interferometer for precision gravity measurement, Gen. Relat. Gravit., 43(7): 1931-1942(2011)

[28]       Yu Geng-Hua, Zhong Jia-Qi, Li Run-Bing, Wang Jin, Zhan Ming-Sheng*, Magic Wavelength of an Optical Clock Transition of Barium, Chin. Phys. Lett., 28, 073201(2011)

[29]       Zhong Jiaqi, Yu Genghua, Wang Jin, Zhan Mingsheng*, Direct Determination of Hyperfine Structures and Isotope Shifts in the 6s5d D-3→6p5d F-3 Transitions of Ba I, Spectrosc. Spectr. Anal., 32 (1):11-14(2012)

[30]       Xiaodong He, Shi Yu, Peng Xu, Jin Wang, and Mingsheng Zhan*, Combining red and blue-detuned optical potentials to form a Lamb-Dicke trap for a single neutral atom, Opt. Express, 20(4): 3711-3724(2012)

[31]       Jia-qi Zhong*, Geng-hua Yu, Jin Wang, Ming-sheng Zhan*, Determination of the 5d6p ³F₄→5d^{2 3}F transition probabilities of Ba I, Front. Phys., 7(2):235-238(2012)

[32]       Zheng Tan, Xiu-chao Zhao, Yong Cheng, Xian-ping Sun*, Jun Luo, Xin Zhou, Jin Wang, Ming-sheng Zhan*, Doppler-free spectroscopy of rubidium atoms driven by a control laser, Front. Phys., 7(3):311-314(2012)

[33]       Yu Shi, He Xiaodong, Xu Peng, Liu Min, Wang Jin, Zhan Mingsheng*, Single atoms in the ring lattice for quantum information processing and quantum simulation, Chin. Sci. Bull., 57(16):1931-1945(2012)

[34]       S. Yu, P. Xu, X. D. He, M. Liu, J. Wang, and M. S. Zhan*, Suppressing phase decoherence of a single atom qubit with Carr-Purcell-Meiboom-Gill sequence, Opt. Express, 21(26): 032130–032140(2013)

[35]       W. C. Peng, L. Zhou, S. T. Long, J. Wang, and M. S. Zhan*, Locking laser frequency of up to 40  GHz offset to a reference with a 10  GHz electro-optic modulator, Opt. Lett., 39(10): 2998–3001(2014)

[36]       Xi Chen, Jiaqi Zhong, Hongwei Song, Lei Zhu, Jin Wang*, and Mingsheng Zhan, Proportional-scanning-phase method to suppress the vibrational noise in nonisotope dual-atom-interferometer-based weak-equivalence-principle-test experiments, Phys. Rev. A 90(2), 023609(2014)

[37]       Biao Tang, Lin Zhou, Zongyuan Xiong, Jin Wang*, and Mingsheng Zhan*, A programmable broadband low frequency active vibration isolation system for atom interferometry, Rev. Sci. Instrum., 85(9), 093109(2014)

[38]       Shi Yu, Peng Xu, Min Liu, Xiaodong He, Jin Wang, and Mingsheng Zhan∗, Qubit fidelity of a single atom transferred among the sites in a ring optical lattice, Phys. Rev. A, 90, 062335(2014)

[39]       Wei Yang, Lin Zhou, Shitong Long, Wencui Peng, Jin Wang, Mingsheng Zhan*, Time-division-multiplexing laser seeded amplification in a tapered amplifier, Chin. Opt. Lett., 13(01): 012601(2015)

[40]       Biao Tang, Bao-Cheng Zhang*, Lin Zhou, Jin Wang, and Ming-Sheng Zhan, Sensitivity function analysis of gravitational wave detection with single-laser and large-momentum-transfer atomic sensors, Res. Astron. Astrophys., 15(3):333-347(2015)

[41]       Wang Jin*, Precision measurement with atom interferometry, Chin. Phys. B, 24(5):053702(2015)

[42]       Lin Zhou, Shitong Long, Biao Tang, Xi Chen, Fen Gao, Wencui Peng, Weitao Duan, Jiaqi Zhong, Zongyuan Xiong, Jin Wang*, Yuanzhong Zhang, Mingsheng Zhan*, Test of Equivalence Principle at 10^-8 Level by a Dual-species Double-diffraction Raman Atom Interferometer, Phys. Rev. Lett. 115(01):013004(2015)

[43]       Peng Xu, Jiaheng Yang, Min Liu, Xiaodong He, Yong Zeng, Kunpeng Wang, Jin Wang, D. J. Papoular, G.V. Shlyapnikov, Mingsheng Zhan*, Interaction induced decay of a heteronuclear two-atom system, Nat. Commun., 6: 7803(2015)

[44]       Kai Wang, Zhanwei Yao, Runbing Li*, Sibin Lu, Xi Chen, Jin Wang*, and Mingsheng Zhan*, Hybrid wide-band, low-phase-noise scheme for Raman lasers in atom interferometry by integrating an acousto-optic modulator and a feedback loop, Appl. Opt., 55(5): 989-992(2016)

[45]       Min Ke, Feng Zhou, Xiao Li, Jin Wang and Mingsheng Zhan*, Tailored-waveguide based photonic chip for manipulating an array of single neutral atoms，Opt. Express, 24(9), 009157(2016)

[46]       Dali Sun, Chao Zhou, Lin Zhou, Jin Wang, and Mingsheng, Zhan*, Modulation transfer spectroscopy in a lithium atomic vapor cell, Opt. Express, 24(10), 010649(2016).

[47]       Yu-Ping Wang; Jia-Qi Zhong, Xi Chen, Run-Bing Li*, Da-Wei Li; Lei Zhu; Hong-Wei Song; Jin Wang*, Ming-Sheng Zhan, Extracting the differential phase in dual atom interferometers by modulating magnetic fields, Opt. Commun., 375, 34-37(2016)

[48]       Zhan-Wei Yao, Si-Bin Lu, Run-Bing Li*, Kai Wang, Lei Cao, Jin Wang*, Ming-Sheng Zhan*, Continuous dynamic rotation measurements using a compact cold atom gyroscope, Chin. Phys. Lett., 33(8), 083701(2016)

[49]       Jiaheng Yang, Xiaodong He^∗, Ruijun Guo, Peng Xu, Kunpeng Wang, Cheng Sheng, Min Liu, Jin Wang, Andrei Derevianko, and Mingsheng Zhan †，Coherence preservation of a single neutral atom qubit transferred between magic-intensity optical traps, Phys. Rev. Lett., 117(12), 123201(2016)

[50]       R. B. Li, * Z. W. Yao, K. Wang, S. B. Lu, L. Cao, J. Wang, ^† and M. S. Zhan, ^‡ Rabi-oscillation-induced π phase flip in an unbalanced Ramsey atom interferometer, Phys. Rev. A 94(3), 033613 (2016)

[51]       Hongwei Song, Jiaqi Zhong*, Xi Chen, Lei Zhu, Yuping Wang, Jin Wang*, and Mingsheng Zhan, Normalized detection by using the blow-away signal in cold atom interferometry, Opt. Express, 24(25), 028392(2016).

[52]       Dongfeng Gao*, Jin Wang, and Mingsheng Zhan^†, Constraining the generalized uncertainty principle with atomic weak equivalence principle test, Phys. Rev. A, 95(4):042106 (2017)

[53]       Lei Zhu, Jiaqi Zhong*, Xi Chen, Hongwei Song, Xiaowei Zhang, Biao Tang, Fen Gao, Jin Wang^†, and Mingsheng Zhan^‡, Measurement and control of the sideband to carrier ratio of an electro-optic modulator used in atom interferometers, Opt. Express, 25(10), 011365(2017).

[54]       Yuping Wang, Jiaqi Zhong*, Hongwei Song, Lei Zhu, Yimin Li, Xi Chen, Runbing Li, Jin Wang†, and Mingsheng Zhan, Location-dependent Raman transition in gravity-gradient measurements using dual atom interferometers, Phys. Rev. A, 95(5):053612 (2017)

[55]       Feng Zhou, Xiao Li, Min Ke†, Jin Wang, and Ming-Sheng Zhan‡ ，Microwave coherent manipulation of cold atoms in optically induced fictitious magnetic traps on an atom chip, Chin Phys B, 26(9), 090701(2017)

[56]       Jiangong Hu, Xi Chen*, Jie Fang, Lin Zhou, Jiaqi Zhong, Jin Wang^†, and Ming-Sheng Zhan‡, Analysis and suppression of wave-front-aberration phase noise in weak-equivalence-principle tests using dual-species atom interferometers, Phys. Rev. A, 96(2), 023618(2017)

[57]       Yong Zeng, Peng Xu* Xiaodong He Yangyang Liu, Min Liu, Jin Wang, D. J. Papoular, G. V. Shlyapnikov, and Mingsheng Zhan †, Entangling two individual atoms of different isotopes via Rydberg blockade，Phys. Rev. Lett., 119, 160502 (2017)

[58]       Zhan-Wei Yao, Si-Bin Lu, Run-Bing Li*, Jun Luo, Jin Wang†, and Ming-Sheng Zhan‡, Calibration of atomic trajectories in a large-area dual-atom-interferometer gyroscope, Phys. Rev. A, 97, 013620 (2018)

[59]       Dong-Feng Gao *,  Jin Wang,  and Ming-Sheng Zhan *, Atomic interferometric gravitational-wave space observatory (AIGSO), Commun. Theor. Phys. 69(1), 37–42(2018)

[60]       Jie Fang, Jiangong Hu, Xi Chen*, Haoran Zhu, Lin Zhou, Jiaqi Zhong, Jin Wang*, Mingsheng Zhan*, Realization of a compact one-seed laser system for atom interferometer-based gravimeters, Opt. Express, 26(2), 001586 (2018).

[61]       Yong Zeng, Kun-Peng Wang, Yang-Yang Liu, Xiao-Dong He, Min Liu, Peng Xu*, Jin Wang, and Ming-Sheng Zhan. Stabilizing dual laser with a tunable high-finesse transfer cavity for single-atom Rydberg excitation. J. Opt. Soc. Am. B 35(2), 454-459 (2018)

[62]       Xiaowei Zhang, Jiaqi Zhong*, Biao Tang, Xi Chen, Lei Zhu, Panwei Huang, Jin Wang*, and Mingsheng Zhan*，Compact portable laser system for mobile cold atom gravimeters，Appl. Opt. 57(22), 6545-6551 (2018)

[63]       Chao Zhou, Sachin Barthwa, * Wendong Zhang, Chuan He, Biao Tang, Lin Zhou*, Jin Wang, and Ming-Sheng Zhan, Characterization and optimization of a tapered amplifier by its spectra through a long multi-pass rubidium absorption cell, Appl. Opt. 57(26), 7427-7434(2018)

[64]       Xiao Li, Feng Zhou, Min Ke, Peng Xu, Xiao-Dong He, Jin Wang, and Ming-Sheng Zhan，High-resolution ex vacuo objective for cold atom experiments，Appl. Opt. 57(26), 7584-7590(2018)

[65]       Pan-Wei Huang, Biao Tang*, Zong-Yuan Xiong, Jia-Qi Zhong, Jin Wang*, and Ming-Sheng Zhan*, Note: A compact low-vibration high-performance optical shutter for precision measurement experiments，Rev. Sci. Instrum. 89, 096111 (2018).

[66]       Si-Bin Lu, Zhan-Wei Yao, Run-Bing Li,* Jun Luo, Sachin Barthwal, Hong-Hui Chen, Ze-Xi Lu, Jin Wang* and Ming-Sheng Zhan* ,Competition effects of multiple quantum paths in an atom interferometer，Opt. Commun., 429，158–162 (2018).

[67]       Cheng Sheng, Xiaodong He,* Peng Xu, Ruijun Guo, Kunpeng Wang, Zongyuan Xiong, Min Liu, Jin Wang and Mingsheng Zhan,† High-fidelity single-qubit gates on neutral atoms in a two-dimensional magic-intensity optical dipole trap array, Phys. Rev. Lett. 121, 240501 (2018)

[68]       Yimin Li, Zhuo Fu, Lei Zhu, Jie Fang, Haoran Zhu, Jiaqi Zhong, Peng Xu, Xi Chen*, Jin Wang and Mingsheng Zhan, Laser frequency noise measurement using an envelope-ratio method based on a delayed self-heterodyne interferometer. Opt. Commun., 435, 244-250(2019)

[69]       Pan-Wei Huang, Biao Tang*, Xi Chen, Jia-Qi Zhong, Zong-Yuan Xiong, Lin Zhou, Jin Wang* and Ming-Sheng Zhan*, Accuracy and stability evaluation of the ⁸⁵Rb atom gravimeter WAG-H5-1 at the 2017 International Comparison of Absolute Gravimeters, Metrologia 56，045012 (2019)

[70]       Kunpeng Wang, Xiaodong He*, Ruijun Guo, Peng Xu, Cheng Sheng, Jun Zhuang, Zongyuan Xiong, Min Liu, Jin Wang and Mingsheng Zhan*, Preparation pf a heteronuclear two-atom system in the three-dimensional ground state in an optical tweezer, Phys. Rev. A. 100, 063429 (2019).

[71]       Gang Wang∗, Dongfeng Gao∗, Wei-Tou Ni∗, Jin Wang and Mingsheng Zhan, Orbit design for space atom-interferometer AIGSO，Intl. J. Mod. Phys. D 29(4),1940004 (2020).

[72]       Ming-Sheng Zhan*, Jin Wang*, Wei-Tou Ni, Dong-Feng Gao, Gang Wang, Ling-Xiang He, Run-Bing Li, Lin Zhou, Xi Chen, Jia-Qi Zhong, Biao Tang, Zhan-Wei Yao, Lei Zhu, Zong-Yuan Xiong, Si-Bin Lu, Geng-Hua Yu, Qun-Feng Cheng, Min Liu, Yu-Rong Liang, Peng Xu, Xiao-Dong He, Min Ke, Zheng Tan and Jun Luo, ZAIGA: Zhaoshan long-baseline atom interferometer gravitation antenna, Intl. J. Mod. Phys. D 29(4), 1940005(2020).

[73]       Chao Zhou, Chuan He, Si-Tong Yan, Yu-Hang Ji, Lin Zhou*, Jin Wang, Ming-Sheng Zhan，Laser frequency shift up to 5 GHz with a high-efficiency 12-pass 350-MHz acousto-optic modulator. Rev. Sci. Instrum. 91, 033201(2020).

[74]       Ruijun Guo, Xiaodong He,* Cheng Sheng, Jiaheng Yang, Peng Xu, Kunpeng Wang , Jiaqi Zhong, Min Liu, Jin Wang and Mingsheng Zhan，Balanced Coherence Times of atomic qubits of different species in a dual 3 × 3 magic-intensity optical dipole trap array, Phys. Rev. Lett. 124(15), 153201 (2020)

[75]       Liyong Wang, Min Liu*, Shi Yu*, Peng Xu, Xiaodong He, Kunpeng Wang, Jin Wang, and Mingsheng Zhan*, Effect of an echo sequence to a trapped single-atom interferometer with photon momentum kicks, Opt. Express 28(10), 15038 (2020).

[76]       Kun-Peng Wang, Jun Zhuang, Xiao-Dong He*, Rui-Jun Guo, Cheng Sheng, Peng Xu, Min Liu, Jin Wang, Ming-Sheng Zhan*， High-Fidelity Manipulation of the Quantized Motion of a Single Atom via Stern–Gerlach Splitting,Chin. Phys. Lett. 37 (4): 044209(2020)

[77]       Wei-Tao Duan, Chuan He, Si-Tong Yan, Yu-Hang Ji, Lin Zhou*, Xi Chen, Jin Wang* , and Ming-Sheng Zhan, Suppression of Coriolis error in weak equivalence principle test using ⁸⁵Rb-⁸⁷Rb dual-species atom interferometer, Chin. Phys. B, 29(7): 070305(2020).

[78]       Xiaodong He*†, Kunpeng Wang*, Jun Zhuang, Peng Xu, Xiang Gao, Ruijun Guo, Cheng Sheng, Min Liu, Jin Wang, Jiaming Li, G. V. Shlyapnikov, Mingsheng Zhan†.  Coherently forming a single molecule in an optical trap. Science 370，331-335 (2020).

[79]       Jin Wang, New SI and precision measurements: an interview with Tianchu Li, Natl. Sci. Rev. 7(12): 1837-1840(2020)

[80]       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).

[81]       Zhan-Wei Yao, Hong-Hui Chen, Si-Bin Lu, Run-Bing Li*, Ze-Xi Lu, Xiao-Li Chen, Geng-Hua Yu, Min Jiang, Chuan Sun, 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. A 103, 023319(2021)

[82]       Yangyang Liu, 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)

[83]       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. A 103, 063310(2021)

[84]       Yang-Yang Liu, Zhuo Fu, Peng Xu, Xiao-Dong He, Jin Wang  and Ming-Sheng Zhan, Spectral filtering of dual lasers with a high-finesse length-tunable cavity for rubidium atom Rydberg excitation, Chin. Phys. B 30(7), 074203(2021)

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

[86]       Lin Zhou, Chuan He, Si-Tong Yan, Xi Chen, Dong-Feng Gao, Wei-Tao Duan, Yu-Hang Ji, Run-Dong Xu, Biao Tang, Chao Zhou, Sachin Barthwal, Qi Wang, Zhuo Hou, Zong-Yuan Xiong, Yuan-Zhong Zhang, Min Liu, Wei-Tou Ni, Jin Wang*, and Ming-Sheng Zhan*, Joint mass-and-energy test of the equivalence principle at the 10^(−10) level using atoms with specified mass and internal energy, Phys. Rev. A 104, 022822(2021)

[87]       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)

[88]       Cheng Sheng, Jiayi Hou, Xiaodong He*, Kunpeng Wang, Ruijun Guo, Jun Zhuang, Bahtiyar Mamat, Peng Xu*, Min Liu, Jin Wang, and Mingsheng Zhan, Defect-Free Arbitrary-Geometry Assembly of Mixed-Species Atom Arrays, Phys. Rev. Lett. 128, 083202 (2022)

[89]       Lei Zhu, Jiaqi Zhong, Xiaowei Zhang, Wei Lyu, Wu Liu, Weihao Xu, Xi Chen, Jin Wang, and Mingsheng Zhan, Feedback control of atom trajectories in a horizontal atom gravity gradiometer, Opt. Express 30(6), 10071-10083(2022)

[90]       Wei Zhao, Xitong Mei, Dongfeng Gao, Jin Wang, and Mingsheng Zhan, Ultralight scalar dark matter detection with ZAIGA, Intl. J. Mod. Phys. D 31(5): 2250037(2022)

[91]       Zhuo Fu, Peng Xu^*, Yuan Sun^†, Yang-Yang Liu, Xiao-Dong He,  Xiao Li, Min Liu, Run-Bing Li, Jin Wang, Liang Liu^‡, and Ming-Sheng Zhan^§, High-fidelity entanglement of neutral atoms via a Rydberg-mediated single-modulated-pulse controlled-PHASE gate, Phys. Rev. A 105, 042430 (2022)2

[92]       Wei Zhao，Dongfeng Gao, Jin Wang, Mingsheng Zhan, Investigating the environmental dependence of ultralight scalar dark matter with atom interferometers, Gen. Relat. Gravit. 54:41(2022) DOI: 10.1007/s10714-022-02925-4; Published online 29 April 2022

[93]       Rundong Xu, Qi Wang, Sitong Yan, Zhuo Hou, Chuan He, Yuhang Ji, Zhixin Li, Junjie Jiang, Biyan Qiao, Lin Zhou,* Ji Wang, and Mingsheng Zhan, Modular-assembled laser system for a long-baseline atom interferometer. Appl. Opt. 61(16): 4648-4654(2022)

[100] Wei Lyu, Jia-Qi Zhong,* Xiao-Wei Zhang, Wu Liu, Lei Zhu, Wei-Hao Xu, Xi Chen, Biao Tang, Jin Wang,† and Ming-Sheng Zhan,‡ Compact high-resolution absolute-gravity gradiometer based on atom interferometers, Phys. Rev. Appl. 18(5), 054091 (2022)

[101] Lin Zhou, Si-Tong Yan, Yu-Hang Ji, Chuan He, Jun-Jie Jiang, Zhuo Hou, Run-Dong Xu, Qi Wang, Zhi-Xin Li, Dong-Feng Gao, Min Liu, Wei-Tou Ni, Jin Wang* and Ming-Sheng Zhan*， Toward a high-precision mass-energy test of the equivalence principle with atom interferometers，Front. Phys. 10, 1039119(2022)

[102] Guiguo Ge, Xi Chen*, Jinting Li, Danfang Zhang, Meng He, Wenzhang Wang, Yang Zhou, Jiaqi Zhong, Biao Tang, Jie Fang*, Jin Wang and Mingsheng Zhan. Accuracy improvement of a compact 85Rb atom gravimeter by suppressing laser crosstalk and light shift. Sensors 23, 6115(2023)

[103] Meng He, Xi Chen✉, Jie Fang, Qunfeng Chen, Huanyao Sun, Yibo Wang, Jiaqi Zhong, Lin Zhou, Chuan He, Jinting Li, Danfang Zhang, Guiguo Ge, Wenzhang Wang, Yang Zhou, Xiao Li, Xiaowei Zhang, Lei Qin, Zhiyong Chen, Rundong Xu, Yan Wang, Zongyuan Xiong, Junjie Jiang, Zhendi Cai, Kuo Li, Guo Zheng, Weihua Peng, Jin Wang✉ and Mingsheng Zhan✉, The space cold atom interferometer for testing the equivalence principle in the China Space Station. npj Microgravity 9: 58(2023)

[104] Qi Wang, Junjie Jiang, Rundong Xu, Lin Zhou*, Shi-Guo Peng*, Jin Wang*, and Mingsheng Zhan, Time-optimized atomic lensing mechanism for the source preparation of dual-species atomic gases in an atom-interferometric test of the weak equivalence principle，Phys. Rev. A 108, 013107(2023)

[105] Min Jiang, Si-Bin Lu*, Yang Li, Chuan Sun, Zhan-Wei Yao, Shao-Kang Li, Hong-Hui Chen, Xiao-Li Chen, Ze-Xi Lu, Yin-Fei Mao, Run-Bing Li*, Jin Wang, and Ming-Sheng Zhan，Compact multi-channel radio-frequency pulse-sequence generator with fast-switching capability for cold-atom interferometers，Rev. Sci. Instrum. 94(9), 093204 (2023)

[106] Xiaowei Zhang, Jiaqi Zhong*, Wei Lyu, Weihao Xu, Lei Zhu, Muyan Wang, Xi Chen, Biao Tang, Jin Wang*, and Mingsheng Zhan*, Dependence of the ellipse fitting noise on the differential phase between interferometers in atom gravity gradiometers, Opt. Express, 31(26), 44102-44112(2023)

[107] Si-Tong Yan#, Jun-Jie Jiang#, Lin Zhou*, Yu-Hang Ji, Chuan He, Zhuo Hou, Biao Tang, Xi Chen, Jin Wang*, and Ming-Sheng Zhan, Absolute phase shift measurement in phase shear readout atom interferometer，Phys. Rev. A. 108, 063313 (2023)

[108] Rui-Jun Guo, Xiao-Dong He, Cheng Sheng, Kun-Peng Wang, Peng Xu, Min Liu, Jin Wang, Xiao-Hong Sun, Yong Zeng*, and Ming-Sheng Zhan，In situ calibrated angle between the quantization axis and the propagating direction of the light field for trapping neutral atoms，Chin. Phys. B 33(2), 023701 (2024)

[109] Yang Zhou, Wenzhang Wang, Guiguo Ge, Jinting Li, Danfang Zhang, Meng He, Biao Tang, Jiaqi Zhong, Lin Zhou, Runbing Li, Ning Mao, Hao Che, Leiyuan Qian, Yang Li, Fangjun Qin*, Jie Fang*, Xi Chen*, Jin Wang and Mingsheng Zhan, High-precision atom interferometer-based dynamic gravimeter measurement by eliminating the cross-coupling effect. Sensors 24, 1016(2024)

[110] Jun Zhuang, Kun-Peng Wang, Peng-Xiang Wang, Ming-Rui Wei, Bahtiyar Mamat, Cheng Sheng, Peng Xu, Min Liu, Jin Wang, Xiao-Dong He,* and Ming-Sheng Zhan,† Probing the interaction energy of two 85Rb atoms in an optical tweezer via spin-motion coupling. Phys. Rev. A 109, 043320 (2024)

[111] Ruiting Huang, Feng Zhou, Xiao Li, Peng Xu, Yi Wang, and Mingsheng Zhan, Metasurface optical trap array for single atoms, Opt. Express 32(12), 21293-21303 (2024)

[112] Hong-Hui Chen, Zhan-Wei Yao*，Ze-Xi Lu, Si-Bin Lu, Min Jiang, Shao-Kang Li, Xiao-Li Chen, Chuan Sun, Yin-Fei Mao, Yang Li, Run-Bing Li*, Jin Wang, and Ming-Sheng Zhan, Self-calibrated atom-interferometer gyroscope by modulating atomic velocities， Rev. Sci. Instrum. 95(5), 053201(2024)

[113] Haoran Zhu, Panwei Huang*, Bin Gao, Biao Tang,* Xi Chen, Jiaqi Zhong, Jin Wang,* and Mingsheng Zhan, Miniaturized optical system for high-precision mobile atomic gravimeters, Opt. Express, 32(15), 26157-26166(2024)

[114] Yu-Hang Ji, Chuan He, Si-Tong Yan, Jun-Jie Jiang, Jia-Qi Lei, Lu Zhou, Lin Zhou,∗ Xi Chen, Jin Wang,† and Ming-Sheng Zhan,‡ Evaluation of the systematic error induced by quadratic Zeeman effect using hyperfine ground state exchange method in a long-baseline dual-species atom interferometer，Phys. Rev. A, 110, 013317 (2024)

[115] Jie Fang, Wenzhang Wang, Yang Zhou, Jinting Li, Danfang Zhang, Biao Tang, Jiaqi Zhong, Jiangong Hu, Feng Zhou, Xi Chen*, Jin Wang and Mingsheng Zhan, Classical and atomic gravimetry Remote Sens. 16, 2634(2024)

[116] Xiao-Li Chen, Si-Bin Lu*, Chuan Sun, Min Jiang, Yang Li, Zhan-Wei Yao, Shao-Kang Li, Min Ke, Run-Bing Li*, Jin Wang, Ming-Sheng Zhan, Robust large-momentum-transfer atom interferometry with Raman adiabatic rapid passage, Opt. Commun. 573, 131005(2024)

[117] Dongfeng Gao*, Lin Zhou, Jin Wang*, Mingsheng Zhan*, Constraining the spin-gravity coupling effects to the 10−10 level with dual-species atom interferometers Phys. Rev. A 110, 033322 (2024)

[118] Bahtiyar Mamat, Cheng Sheng,* Yi-Qing Zhang, Jia-Yi Hou, Peng Xu, Kun-Peng Wang, Jun Zhuang, Ming-Rui Wei, Min Liu, Jin Wang, Xiao-Dong He, * and Ming-Sheng Zhan, Mitigating the noise of residual electric fields for single Rydberg atoms with electron photodesorption, Phys. Rev. Appl. 22, 064021 (2024)

[119] Si-Bin Lu; Jia-Hao Fu; Min Jiang*; Chuan Sun; Zhan-Wei Yao; Xiao-Li Chen; Shao-Kang Li; Min Ke; Bo Wang; Run-Bing Li*; Jin Wang; Ming-Sheng Zhan, Miniaturized inertial sensor based on high-resolution dual atom interferometry, Rev. Sci. Instrum. 96(1), 013201 (2025)

[120] Jinting Li, Xi Chen*, Danfang Zhang, Wenzhang Wang, Yang Zhou, Meng He, Jie Fang, Lin Zhou, Chuan He, Junjie Jiang, Huanyao Sun, Qunfeng Chen, Lei Qin, Xiao Li, Yibo Wang, Xiaowei Zhang, Jiaqi Zhong, Runbing Li, Meizhen An, Long Zhang, Shuquan Wang, Zongfeng Li, Jin Wang* and Mingsheng Zhan*. Realization of cold atom gyroscope in space. Natl. Sci. Rev., 12: nwaf012(2025)

[121] Ze-Xi Lu, Zhan-Wei Yao, *Hong-Hui Chen, Yin-Fei Mao, Si-Bin Lu, Min Jiang, Shao-kang Li, Min Ke, Jie Gu, An-Qing Zhang, Run-Bing Li , †Jin Wang, and Ming-Sheng Zhan, Real-time compensation scheme for the accurate measurement of the differential phase in a dual-atom-interferometer gyroscope，Phys. Rev. A 111(3), 033305(2025)

[122] Chuan Sun, Si-Bin Lu∗, Min Jiang, Zhan-Wei Yao , Shao-Kang Li, Xiao-Li Chen , Min Ke, Jia-Hao Fu, Run-Bing Li∗∗, Jin Wang, Ming-Sheng Zhan，Highly stable modular-assembled laser system for a dual-atom-interferometer gyroscope，Optics & Laser Technology 187，112771 (2025)

a) Abdalla et al. Terrestrial Very-Long-Baseline Atom Interferometry: summary of the second workshop. EPJ Quantum Technology 12:42(2025)

[123] Xitong Mei, Dongfeng Gaoa, Wei Zhao, Jin Wangb, Mingsheng Zhanc, Probing new light scalars with the lepton anomalous magnetic moment and the weak equivalence principle violation, Eur. Phys. J. C 85:965(2025)

[124] Xiao Li, Jia-Yi Hou, Jia-ChaoWang, Guang-Wei Wang, Xiao-Dong He, Feng Zhou, Yi-BoWang, Min Liu, JinWang, Peng Xu & Ming-Sheng Zhan, A fiber array architecture for atom quantum computing, Nature Communications 16:9728(2025)

[125] Jiaqi Lei, Junjie Jiang, Sitong Yan*, Zhuo Hou, Chuan He, Rundong Xu, Lin Zhou*, Jin Wang*, Oleg Nikolaevich Prudnikov, Valeriy Yudin, and Mingsheng Zhan, Method for phase extraction from atom interference fringes via orthogonal subspace projection. AVS Quantum Sci. 8, 015001 (2026)

[126] Wei-Hao Xu, Xi Chen*, Jin-Ting Li, Dan-Fang Zhang, Wen-Zhang Wang, Jia-Yi Wei, Jia-Qi Zhong, Biao Tang, Lin Zhou, Run-Bing, Jin Wang and Min-Sheng Zhan,*Active Suppression of Differential Light Shift Drift in an Atom Gravimeter，Sensors 26, 1620(2026)

[127] Ming-Rui Wei, Kun-Peng Wang,* Jia-Yi Hou, Yi Chen, Peng Xu, Jun Zhuang, Rui-Jun Guo, Min Liu, Jin Wang, Xiao-Dong He,† and Ming-Sheng Zhan, Enhanced atom-by-atom assembly of defect-free two-dimensional mixed-species atomic arrays. Phys. Rev. Appl. 25, 034009 (2026)