Effect of signal sampling on laser noise based on 3×3 interferometer and phase signal demodulation

Guangbo LI; Fengping YAN; Qi QIN; Lingyun ZHOU; Yan LIU; Ting FENG

doi:10.37188/OPE.20233107.0982

Optics and Precision Engineering, Volume. 31, Issue 7, 982(2023)

Effect of signal sampling on laser noise based on 3×3 interferometer and phase signal demodulation

Guangbo LI1... Fengping YAN1,*, Qi QIN1, Lingyun ZHOU1, Yan LIU1 and Ting FENG2,* |Show fewer author(s)

Author Affiliations

¹School of Electronic and Information Engineering， Beijing Jiaotong University， Beijing00044， China

²Photonics Information Innovation Center， College of Physics Science ＆ Technology， Hebei University， Baoding07100， China

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References(17)

[1] F YANG, Q YE, Z Q PAN et al. 100-mW linear polarization single-frequency all-fiber seed laser for coherent Doppler lidar application. Optics Communications, 285, 149-152(2012).

[2] S H XU, Z M YANG, T LIU et al. An efficient compact 300 mW narrow-linewidth single frequency fiber laser at 1.5 microm. Optics Express, 18, 1249-1254(2010).

[3] [3] 3李加福，朱小平，杜华，等. 厚度测量中对射激光束共线性视觉检测［J］. 光学精密工程， 2020， 28（8）： 1690-1699. doi: 10.1364/oe.410177LIJ F， ZHUX P， DUH， et al. Vision detection for laser beam collinearity in thickness measurement［J］. Opt. Precision Eng.， 2020， 28（8）： 1690-1699. （in Chinese）. doi: 10.1364/oe.410177

[4] [4] 4贾文增，刘学胜，司汉英，等. 基于LCP径向偏振光输出的掺镱MOPA脉冲光纤激光器［J］. 光学精密工程， 2020， 28（5）： 997-1004.JIAW Z， LIUX SH， SIH Y， et al. Yb-doped fiber MOPA system with radially polarized output beam based on LCP vortex retarder［J］. Opt. Precision Eng.， 2020， 28（5）： 997-1004. （in Chinese）

[5] J LIU, H X SHI, K LIU et al. 210 W single-frequency， single-polarization， thulium-doped all-fiber MOPA. Optics Express, 22, 13572-13578(2014).

[6] [6] 6姚中辉，陈红梅，张子旸. 基于双倾斜沟槽结构的O波段单纵模Fabry-Pérot激光器［J］. 发光学报， 2021， 42（11）： 1804-1809. doi: 10.37188/CJL.20210263YAOZH H， CHENH M， ZHANGZ Y. O-band single longitudinal mode fabry-Pérot laser based on double slanted slots structure［J］. Chinese Journal of Luminescence， 2021， 42（11）： 1804-1809. （in Chinese）. doi: 10.37188/CJL.20210263

[7] [7] 7董杰. 空间差分干涉的光纤分布式水下声波测量［J］. 光学精密工程， 2017， 25（9）： 2317-2323. doi: 10.3788/ope.20172509.2317DONGJ. Measurement of underwater acoustic wave using optical distributed acoustic sensing based on space difference［J］. Opt. Precision Eng.， 2017， 25（9）： 2317-2323. （in Chinese）. doi: 10.3788/ope.20172509.2317

[8] E H BERNHARDI, H A G M VAN WOLFEREN, L AGAZZI et al. Ultra-narrow-linewidth， single-frequency distributed feedback waveguide laser in Al₂O₃： Er³⁺ on silicon. Optics Letters, 35, 2394-2396(2010).

[9] W LIANG, V S ILCHENKO, A A SAVCHENKOV et al. Whispering-gallery-mode-resonator-based ultranarrow linewidth external-cavity semiconductor laser. Optics Letters, 35, 2822-2824(2010).

[10] T OKOSHI, K KIKUCHI, A NAKAYAMA. Novel method for high resolution measurement of laser output spectrum. Electronics Letters, 16, 630(1980).

[11] J W DAWSON, N PARK, K J VAHALA. An improved delayed self-heterodyne interferometer for linewidth measurements. IEEE Photonics Technology Letters, 4, 1063-1066(1992).

[12] [12] 12曹春燕，姚琼，饶伟，等. 窄线宽激光器线宽的非平衡光纤干涉仪测量法［J］. 中国激光， 2011， 38（5）： 220-223. doi: 10.3788/cjl201138.0508005CAOCH Y， YAOQ， RAOW， et al. Linewidth measurement using unbalanced fiber-optic interferometer for narrow linewidth lasers［J］. Chinese Journal of Lasers， 2011， 38（5）： 220-223. （in Chinese）. doi: 10.3788/cjl201138.0508005

[13] [13] 13徐丹，卢斌，杨飞，等. 基于3×3耦合器的窄线宽单频激光器噪声测量技术［J］. 中国激光， 2016， 43（1）： 32-38. doi: 10.3788/cjl201643.0102004XUD， LUB， YANGF， et al. Narrow linewidth single-frequency laser noise measurement based on a 3 × 3 fiber coupler［J］. Chinese Journal of Lasers， 2016， 43（1）： 32-38. （in Chinese）. doi: 10.3788/cjl201643.0102004

[14] [14] 14白燕，延凤平，韩文国，等. 基于全保偏光纤结构的高稳定性激光相位解调系统［J］. 光学精密工程， 2019， 27（4）： 739-746. doi: 10.3788/ope.20192704.0739BAIY， YANF P， HANW G， et al. High-stability laser phase demodulation system based on 3 × 3 polarization maintaining fiber coupler［J］. Opt. Precision Eng.， 2019， 27（4）： 739-746. （in Chinese）. doi: 10.3788/ope.20192704.0739

[15] [15] 15王建飞，王潇，罗洪，等. 法拉第旋光镜旋转角和工作波长对单模光纤迈克耳孙干涉仪性能的影响［J］. 中国激光， 2010， 37（4）： 1042-1046. doi: 10.3788/cjl20103704.1042WANGJ F， WANGX， LUOH， et al. Influence of rotation angle and working wavelengths of faraday rotation mirror on single-mode fiber optics Michelson interferometer［J］. Chinese Journal of Lasers， 2010， 37（4）： 1042-1046. （in Chinese）. doi: 10.3788/cjl20103704.1042

[16] Y X MAO, C FLUERARU, S SHERIF et al. 3×3 MZI with unbalanced differential detection for full range swept-source optical coherence tomography, 7099, 86-93(2008).

[17] G DI DOMENICO, S SCHILT, P THOMANN. Simple approach to the relation between laser frequency noise and laser line shape. Applied Optics, 49, 4801-4807(2010).

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Guangbo LI, Fengping YAN, Qi QIN, Lingyun ZHOU, Yan LIU, Ting FENG. Effect of signal sampling on laser noise based on 3×3 interferometer and phase signal demodulation[J]. Optics and Precision Engineering, 2023, 31(7): 982

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