[1] Terrel M A, Digonnet M J F, Fan S H. Resonant fiber optic gyroscope using an air-core fiber[J]. Journal of Lightwave Technology, 30, 931-937(2012).

[2] Gad M, Yevick D, Jessop P. High sensitivity ring resonator gyroscopes[J]. Fiber and Integrated Optics, 30, 395-410(2011).

[3] Campbell S L, Hutson R B, Marti G E et al. A Fermi-degenerate three-dimensional optical lattice clock[J]. Science, 358, 90-94(2017).

[4] Ludlow A D, Boyd M M, Ye J et al. Optical atomic clocks[J]. Reviews of Modern Physics, 87, 637-701(2015).

[5] Abbott B P, Abbott R, Abbott T D et al. Observation of gravitational waves from a binary black hole merger[J]. Physical Review Letters, 116, 061102(2016).

[6] Drever R W P, Hall J L, Kowalski F V et al. Laser phase and frequency stabilization using an optical resonator[J]. Applied Physics B, 31, 97-105(1983).

[7] Yao B, Chen Q F, Chen Y J et al. 280 mHz linewidth DBR fiber laser based on PDH frequency stabilization with ultrastable cavity[J]. Chinese Journal of Lasers, 48, 0501014(2021).

[8] Leibrandt D R, Thorpe M J, Notcutt M et al. Spherical reference cavities for frequency stabilization of lasers in non-laboratory environments[J]. Optics Express, 19, 3471-3482(2011).

[9] Smith S P, Zarinetchi F, Ezekiel S. Narrow-linewidth stimulated Brillouin fiber laser and applications[J]. Optics Letters, 16, 393-395(1991).

[10] Hill K O, Johnson D C, Kawasaki B S. CW generation of multiple Stokes and anti-Stokes Brillouin-shifted frequencies[J]. Applied Physics Letters, 29, 185-187(1976).

[11] Cowle G J, Stepanov D Y. Hybrid Brillouin/erbium fiber laser[J]. Optics Letters, 21, 1250-1252(1996).

[12] Yong J C, Thevenaz L, Kim B Y. Brillouin fiber laser pumped by a DFB laser diode[J]. Journal of Lightwave Technology, 21, 546-554(2003).

[13] Deng X. Research on high-precision optical frequency transfer via fiber link[D](2020).

[14] Hu Y Q, Dong J, Huang J C et al. Frequency noise suppression of single-frequency laser by all-fiber ring resonator[J]. Chinese Journal of Lasers, 42, 0802012(2015).

[15] Bai Z X, Jin D, Ding J et al. The power of Brillouin laser exceeds 20 W[J]. Chinese Journal of Lasers, 48, 2116003(2021).

[16] Loh W, Yegnanarayanan S, O′Donnell F et al. Ultra-narrow linewidth Brillouin laser with nanokelvin temperature self-referencing[J]. Optica, 6, 152-159(2019).

[17] Okoshi T, Kikuchi K, Nakayama A. Novel method for high resolution measurement of laser output spectrum[J]. Electronics Letters, 16, 630-631(1980).

[18] Wu X L, Song Y Y, Zhang X C et al. Review of Brillouin dynamic grating[J]. Laser & Optoelectronics Progress, 58, 0700004(2021).

[19] Beugnot J C, Sylvestre T, Alasia D et al. Complete experimental characterization of stimulated Brillouin scattering in photonic crystal fiber[J]. Optics Express, 15, 15517-15522(2007).

[20] Agrawal G P[M]. Hu G W, Huang C, Transl. Nonlinear fiber optics, 287-314(1992).

[21] Debut A, Randoux S, Zemmouri J. Linewidth narrowing in Brillouin lasers: theoretical analysis[J]. Physical Review A, 62, 023803(2000).

[22] Debut A, Randoux S, Zemmouri J. Experimental and theoretical study of linewidth narrowing in Brillouin fiber ring lasers[J]. Journal of the Optical Society of America B, 18, 556-567(2001).

[23] Wanser K H. Fundamental phase noise limit in optical fibres due to temperature fluctuations[J]. Electronics Letters, 28, 53-54(1992).

[24] Gorodetsky M L, Grudinin I S. Fundamental thermal fluctuations in microspheres[J]. Journal of the Optical Society of America B, 21, 697-705(2004).

[25] Sebastian A. Noise dynamics in multi-Stokes Brillouin laser[D](2020).

[26] Zhang P P, Hu S L, Chen S Y et al. A high-efficiency Brillouin fiber ring laser[J]. Chinese Optics Letters, 7, 495-497(2009).

[27] Zhang P P, Yang Y H, Chen S Y. The research on the threshold of Brillouin fiber ring laser[C](2009).