[1] G Chai, L Huang, L Qiao, et al. Effect of the on-board residual magnetism on internal sensors. Chinese Optics, 12, 515-525(2019).
[2] I Kominis, T Kornack, M Romalis, et al. A subfemotesla multichannel atomic magnetometer. Nature, 422, 596-599(2003).
[3] F Wang, S Niu, C. Yue et al. Design of attitude control system for ASTRU microsatellite. Optics and Precision Engineering, 28, 2192-2202(2020).
[4] Seltzer S. Developments in alkalimetal atomic magometry[D]. Princeton: Princeton University, 2008.
[5] M Romalis, H Dang, A Mallof. Ultrahigh sensitivity magnetic field and magnetization measurements with an atomic magnetometer. Applied Physics Letter, 97, 151110(2010).
[6] K Wei, T Zhao, X J Fang, et al. In-situ measurement of the density ratio of K-Rb hybrid vapor cell using spin-exchange collision mixing of the K and Rb light shifts. Optics Express, 27, 16169-16183(2019).
[7] S Knappe, P Schwindt, V Gerginov, et al. Microfabricated atomic clocks and magnetometers. Journal of Optics A: Pure and Applied Optics, 8, 318-322(2007).
[8] T Kornack, S Smullin, M Romalis, et al. A low-noise ferrite magnetic shield. Applied Physics Letters, 90, 223501(2007).
[9] W Fan, W Quan, W Zhang, et al. Analysis on the magnetic field response for nuclear spin co-magnetometer operated in spin-exchange relaxation-free regime. IEEE Access, 7, 28674-28580(2019).
[10] Y Wang, M Liang. Research on the spin-exchange-relaxation-free atomic magnetometer based on Herriott multipass cell. Chinese Journal of Scientific Instrument, 41, 43-49(2020).
[11] D Sheng, S Li, N Dural, et al. Sub-femtotesla scalar atomic magnetometer using multipass cell. Physical Review Letters, 110, 160802(2013).
[12] Knack T. A test of CPT Lentz symmetry using a K3He comagometer[D]. Princeton: Princeton University, 2005.
[13] G Xu, Y Zhang, Q Jiang, et al. Temperature control of vapor cell based on the light absorption of nuclear magnetic resonance gyroscope. Infrared and Laser Engineering, 48, S106003(2019).
[14] G Ma, J Zhang, H Zhang, et al. Resonant mode of Fabry-Perot microcavity regulated by metal surface platforms. Chinese Optics, 12, 651-664(2019).
[15] Y Huang, C Ma, Y Hao, et al. Study on the lasing and thermal characteristic of square-FP coupled cavity semiconductor laser. Chinese Journal of Lasers, 47, 0701017(2020).
[16] Q Chen, H Zhao, W Zhang. External oil cavity coupled with EFPI partial discharge ultrasonic detection sensor. Optics and Precision Engineering, 28, 1471-1479(2020).
[17] F Ning, R Tan, Y Wang, et al. Investigation on threshold characteristic of laser-diode and end-pumped potassium vapor laser. Infrared and Laser Engineering, 48, S105002(2019).
[18] Lv B. Laser Optics: Laser Beam Propagation Beam Quality Control[M]. Chengdu: Sichuan University Press, 1992: 613. (in Chinese)