| [1] | Happer W. Optical pumping[J]. Rev Mod Phy, 1972, 44(2):169-249. |
| [2] | Arnold L Bloom. Principles of operation of the rubidium vapor magnetometer[J]. Applied Optics, 1962, 1(1):61-68. |
| [3] | William E Bell, Arnold L Bloom. Optically driven spin precession[J]. Physical Review Letters, 1961, 6(6):280-281. |
| [4] | Chen Xi, Quan Wei, Duan Lihong, et al. Design and realization of beam collimation system for semiconductor laser in atomic magnetometer[C]//SPIE, 2015, 9671:967114. |
| [5] | Arach S, Ban G, Bison G, et al. Highly stable atomic vector magnetometer based on free spin pression[J]. Optics Express, 2015, 23(17):22108-22115. |
| [6] | Fu Jiqing, Du Pengcheng, Zhou Qing, et al. Spin dynamics of potassium magnetometer in spin-exchange relaxation free regime[J]. Chin Phys B, 2016, 25(1):010302. |
| [7] | Baranov A A, Ermak S V, Sagitov E A, et al. Double resonance fequency light shift compensation inoptically oriented laser-pumped alkali atoms[J]. Journal of Experimental and Theoretical Physics, 2015, 121(3):393-403. |
| [8] | Ricardo Jimenez-Martinez, W Clark Griffith, Wang Yingju, et al. Sensitivity comparison of Mx and frequency-modulated bell-bloom Cs magnetometers in a microfabricated cell[J]. IEEE, 2010, 59(2):372-378. |
| [9] | Zhang Junhai, Xiang Kang, Mei Hongsong, et al. Realization and optimization of all-optical Cs atom magnetometer based on Bell-Bloom structure[J]. Journal of OptoelectronicsLaser, 2015, 26(2):211-216. (in Chinese) |
| [10] | Groeger S, Pazgalev A S, Weis A. Comparision of discharge lamp and laser pumped cesium magnetometers[J]. Applied Physics B, 2005, 80:645-654. |