[1] Zhang Q, Guo Y B, Chen J K et al. A communication experiment using mode division multiplexing with phase modulation-coherent detection[J]. Chinese Journal of Lasers, 47, 0306001(2020).

[2] Zhang Z L, Gao L, Sun Y Y et al. Strain transfer law of distributed optical fiber sensor[J]. Chinese Journal of Lasers, 46, 0410001(2019).

[3] Mauranyapin N P, Madsen L S, Taylor M A et al. Evanescent single-molecule biosensing with quantum-limited precision[J]. Nature Photonics, 11, 477-481(2017).

[4] Braunstein S L, van Loock P. Quantum information with continuous variables[J]. Reviews of Modern Physics, 77, 513-577(2005).

[5] Endres M, Bernien H, Keesling A et al. Atom-by-atom assembly of defect-free one-dimensional cold atom arrays[J]. Science, 354, 1024-1027(2016).

[6] Zhang K S, Lu H D, Li Y J et al. Progress on high-power low-noise continuous-wave single-frequency all-solid-state lasers[J]. Chinese Journal of Lasers, 48, 030006(2021).

[7] Cao C Y, Hu N T, Hou Q K et al. Suppression of nonlinear-crosstalk in remotely interrogated optical fiber hydrophone systems[J]. Acta Optica Sinica, 42, 1606005(2022).

[9] Fan D Y, Zhang X M. Laser fusion and high power laser: history and progress[J]. Physics, 39, 589-596(2010).

[10] Li C. Study on noise mechanism and suppression technology of phosphate single frequency fiber laser[D](2015).

[11] Tian Z C. Impact of relative intensity noise to the performance of microwave photonic links[J]. Semiconductor Optoelectronics, 37, 911-916(2016).

[12] Yang Z M, Xu S H[M]. Single frequency fiber laser, 35-37(2017).

[13] Zhang J. Research on the noise measurement and suppression technology of fiber laser[D], 11-04(2020).

[14] Zhang J, Wei S S, Liu H W et al. Measurement technique for broadband frequency and intensity noise of single-frequency laser[J]. Chinese Journal of Lasers, 48, 0301002(2021).

[15] Ding M, Cheo P K. Analysis of Er-doped fiber laser stability by suppressing relaxation oscillation[J]. IEEE Photonics Technology Letters, 8, 1151-1153(1996).

[16] Cranch G A, Englund M A, Kirkendall C K. Intensity noise characteristics of erbium-doped distributed-feedback fiber lasers[J]. IEEE Journal of Quantum Electronics, 39, 1579-1587(2003).

[17] Ball G A, Hull-Allen C G, Livas J. Frequency noise of a Bragg grating fibre laser[J]. Electronics Letters, 30, 1229-1230(1994).

[18] Zheng Y J, Yun Z Q, Gao X et al. Experiment research on laser intensity stablizer with optical bistable property[J]. Journal of Chongqing University (Natural Science Edition), 15, 107-110(1992).

[19] Gao L L, Tan H M. Optoelectronic feedback technology for high stability all solid-state green laser[J]. Semiconductor Optoelectronics, 27, 605-607(2006).

[20] Xiao Y, Li C, Xu S H et al. Simultaneously suppressing low-frequency and relaxation oscillation intensity noise in a DBR single-frequency phosphate fiber laser[J]. Chinese Physics Letters, 32, 064205(2015).

[21] Huber M, Schweinberger W, Stutzki F et al. Active intensity noise suppression for a broadband mid-infrared laser source[J]. Optics Express, 25, 22499-22509(2017).

[22] Zhang F, Zhu J, Wang H et al. Intensity noise of erbium doped fiber laser at low frequency suppression through optoelectronic feedback[J]. Chinese Journal of Quantum Electronics, 29, 311-315(2012).

[23] Wang X H, Yan H M, Yang W G et al. Noise conversion of a mode-cleaner cavity and noise analysis of output fields[J]. Acta Photonica Sinica, 51, 0414002(2022).

[24] Gräf C, Barr B W, Bell A S et al. Design of a speed meter interferometer proof-of-principle experiment[J]. Classical and Quantum Gravity, 31, 215009(2014).

[25] Tai C Y. Perfection of theory of mode cleaner for intensity noise surpression and investigation for extracavity frequency doubling of 1560 nm fibre laser[D](2014).

[26] Nocera F. LIGO laser intensity noise suppression[J]. Classical and Quantum Gravity, 21, S481-S485(2004).

[27] Seifert F, Kwee P, Heurs M et al. Laser power stabilization for second-generation gravitational wave detectors[J]. Optics Letters, 31, 2000-2002(2006).

[28] Tian X, Yin M J, Xu Q F et al. Suppressing the intensity noiseof a lattice laserfor a Sroptical lattice clock using the mode-cleaner[J]. Journal of Time and Frequency, 38, 147-153(2015).

[29] Haroche S, Hartmann F. Theory of saturated-absorption line shapes[J]. Physical Review A, 6, 1280-1300(1972).

[30] Lim J, Savchenkov A A, Matsko A B et al. Microresonator-stabilized extended-cavity diode laser for supercavity frequency stabilization[J]. Optics Letters, 42, 1249-1252(2017).

[31] Voloshin A S, Kondratiev N M, Lihachev G V et al. Dynamics of soliton self-injection locking in optical microresonators[J]. Nature Communications, 12, 235(2021).

[32] Zhu X Y, Li X L, Zhang R et al. Using DFB laser self-injection locked to an optical waveguide ring resonator as a light source of Φ-OTDR[J]. Applied Optics, 60, 9769-9773(2021).

[33] Farinas A D, Gustafson E K, Byer R L. Frequency and intensity noise in an injection-locked, solid-state laser[J]. Journal of the Optical Society of America B, 12, 328-334(1995).

[34] Ren M, Han W, Xie L et al. Intensity noise suppression of an FP laser by external injection locking[J]. Journal of Semiconductors, 29, 2192-2196(2008).

[35] Hu K Y, Song W N, Zhu X Y et al. Analysis of instability factors of self-injection locking of DFB semiconductor laser[J]. Semiconductor Optoelectronics, 43, 552-556(2022).

[36] Zhao S A. Semiconductor optical amplifier principle and application analysis[J]. Journal of Jinling Institute of Technology, 21, 22-26(2005).

[37] McCoy A D, Fu L B, Ibsen M et al. Intensity noise suppression in fibre DFB laser using gain saturated SOA[J]. Electronics Letters, 40, 107-109(2004).

[38] Danion G, Bondu F, Loas G et al. GHz bandwidth noise eater hybrid optical amplifier: design guidelines[J]. Optics Letters, 39, 4239-4242(2014).

[39] Wu W L, Na Y L. Research on relative intensity noise suppression of fiber optic gyroscope based on the SOA[J]. Navigation Positioning and Timing, 5, 89-93(2018).

[40] Xie T Y, Wang J, Ma C et al. Research on phase noise suppression of optoelectronic oscillator using semiconductor optical amplifier[J]. Acta Optica Sinica, 39, 1223007(2019).

[41] Lan M W. Study on semiconductor optical amplifier and FP laser diode with small divergence angles based on waveguide coupling[D], 12(2020).

[42] Edelmann M, Hua Y, Şafak K et al. Nonlinear fiber system for shot-noise limited intensity noise suppression and amplification[J]. Optics Letters, 46, 3344-3347(2021).

[43] Shi W, Fu S J, Fang Q et al. Single-frequency fiber laser based on rare-earth-doped silica fiber[J]. Infrared and Laser Engineering, 45, 1003001(2016).

[44] Yang C S, Cen X, Xu S H et al. Research progress of single-frequency fiber laser[J]. Acta Optica Sinica, 41, 0114002(2021).