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Chinese Journal of Lasers, Volume. 48, Issue 21, 2101003(2021)

Research on Frequency Stabilization Technology of Modulation Transfer Spectroscopy Based on Rb 87

Yi Hong1,2, Xia Hou1、*, Dijun Chen1,3, Cuiyun Zhou1, Minjie Huang1, Tieqiang Song1, Guibing Wang1, Jian Zhao1, and Weibiao Chen1
Author Affiliations
  • 1Spaceborne Laser Engineering Department, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
  • 2University of Chinese Academy of Sciences, Beijing 100049, China
  • 3Hangzhou Institute for Advanced Study, University of Chinese Academy of Sciences, Hangzhou, Zhejiang 310024, China
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    [2] Du J, Sun Y G, Chen D J et al. Research of a compact iodine-stabilized diode laser at 1064 nm[J]. Chinese Journal of Lasers, 45, 0701006(2018).

    [3] Wang J, Chen D J, Wei F et al. Research on frequency stabilization technology of transfer cavity based on all-fiber ring resonator[J]. Chinese Journal of Lasers, 47, 0906005(2020).

    [4] Lin B K, Cao S Y, Zhao Y et al. Acompact iodine-stabilized solid-state laser at 532 nm[J]. Chinese Journal of Lasers, 41, 0902002(2014).

    [5] Ikegami T, Sudo S, Sakai Y. Frequency stabilization of semiconductor laserdiodes[J]. Physical Review A, 64, 289-293(1995).

    [6] Corwin K L, Lu Z T, Hand C F et al. Frequency-stabilized diode laser with the zeeman shift in an atomic vapor[J]. Applied Optics, 37, 3295-3298(1998).

    [7] Wieman C, Hänsch T W. Doppler-free laser polarization spectroscopy[J]. Physical Review Letters, 36, 1170-1173(1976).

    [8] Bjorklund G C. Frequency-modulation spectroscopy: a new method for measuring weak absorptions and dispersions[J]. Optics Letters, 5, 15-17(1980).

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    [10] Preston D W. Doppler-free saturated absorption: laser spectroscopy[J]. American Journal of Physics, 64, 1432-1436(1996).

    [11] Shirley J H. Modulation transfer processes in optical heterodyne saturation spectroscopy[J]. Optics Letters, 7, 537-539(1982).

    [12] Kovachy T, Chiow S W, Kasevich M A. Adiabatic-rapid-passage multiphoton Bragg atom optics[J]. Physical Review A, 86, 011606(2012).

    [13] Qi X H, Chen W L, Yi L et al. Ultra-stable rubidium-stabilized external-cavity diode laser based on the modulation transfer spectroscopy technique[J]. Chinese Physics Letters, 26, 044205(2009).

    [14] Han Y S, Wen X, Bai J D et al. Laser frequency stabilization of 1560 nm laser after frequency doublingto 780 nm with a waveguide: radio-frequency frequency-modulation spectroscopy versus modulation transfer spectroscopy with Rb atoms[J]. Acta Optica Sinica, 34, 0530002(2014).

    [15] Luan G J, Mao H C, Shi X H. Method for modulating transfer spectrally stabilized laser frequency based on Rb 87[J]. Optics & Optoelectronic Technology, 18, 83-86(2020).

    [16] Noh H R, Park S E, Li L Z et al. Modulation transfer spectroscopy for 87Rb atoms: theory and experiment[J]. Optics Express, 19, 23444-23452(2011).

    [17] Koester C J, Snitzer E. Amplification in a fiber laser[J]. Applied Optics, 3, 1182-1186(1964).

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    Yi Hong, Xia Hou, Dijun Chen, Cuiyun Zhou, Minjie Huang, Tieqiang Song, Guibing Wang, Jian Zhao, Weibiao Chen. Research on Frequency Stabilization Technology of Modulation Transfer Spectroscopy Based on Rb 87[J]. Chinese Journal of Lasers, 2021, 48(21): 2101003

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    Paper Information

    Category: laser devices and laser physics

    Received: Feb. 3, 2021

    Accepted: Apr. 15, 2021

    Published Online: Oct. 18, 2021

    The Author Email: Hou Xia (hy1989_0629@126.com)

    DOI:10.3788/CJL202148.2101003

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology