基于光纤环形腔结构的布里渊频移器设计

张晓青; 贾豫东; 董建晶

doi:doi:10.3788/aos201636.1214007

光学学报, 2016, 36 (12): 1214007, 网络出版: 2016-12-14

基于光纤环形腔结构的布里渊频移器设计下载： 542次

Design of Brillouin Frequency Shifter Based on Ring Cavity Structure of Optical Fiber

论文大纲

张晓青 ^*贾豫东董建晶

作者单位

北京信息科技大学光电测试技术北京市重点实验室, 北京 100101

激光器光纤激光器环形腔受激布里渊散射阈值功率 lasers fiber laser ring cavity stimulated Brillouin scattering threshold power

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摘要

为了达到布里渊光时域分析(BOTDA)系统双通道激光源的布里渊频移要求, 设计了一个光纤布里渊频移器, 放置在其探测脉冲通道, 使探测光与另一通道的扫频光具有布里渊频移差(约11.2 GHz)。通过分析频移器的输出光谱线宽窄化原理, 利用光纤中激发的布里渊增益谱结合一定的环形腔结构形成窄线宽的布里渊斯托克斯光谱输出, 且分析了环形腔频移器的受激布里渊散射阈值和光-光转换效率两个性能指标及其影响因素。采用1551 nm窄线宽光源, 对实际搭建的9 km单模光纤布里渊频移器进行了实验验证, 结果表明：频移器的受激布里渊散射阈值为2.3 mW, 布里渊频移对应的波长改变约为0.1 nm, 此时的定向耦合器耦合比为0.4, 光-光转换效率为49%。所设计的光纤布里渊频移器能达到布里渊光时域分析系统光源的技术指标, 降低了系统的复杂性和成本。

Abstract

In order to meet the Brillouin frequency shift requirement of dual channel laser source for Brillouin optical time domain analysis(BOTDA) system, an optical fiber Brillouin frequency shifter is designed and placed in the probe pulse channel to make Brillouin frequency shift difference(about 11.2 GHz) between the probe pulse light and the frequency scanning light in another channel. By analyzing the frequency shifter output spectral linewidth narrowing principle, the Brillouin Stokes spectral output with narrow linewidth is formed by combining optical fiber stimulated Brillouin gain spectrum and specific ring cavity structure. The two performance indexes, including threshold of stimulated Brillouin scattering of ring cavity frequency shifter and light-light conversion efficiency, and their influence factors are analyzed. An experimental device of Brillouin frequency shifter with a seed source of 1551 nm and 9 km single mode fiber is set up. The experimental results indicate that the threshold value of stimulated Brillouin scattering is 2.3 mW and the wavelength change corresponding to the Brillouin frequency shift is about 0.1 nm, when the coupling ratio of directional coupler is 0.4 and light-light conversion efficiency is 49%. This optical fiber Brillouin frequency shifter meets the basic light source technical indexes of BOTDA system, which reduces the complexity and the cost of the system.

参考文献

[1] Jaaskelainen M. Fiber optic distributed sensing applications in defense, security, and energy［C］. SPIE, 2009, 7316: 731606.

[2] Chan E H W, Minasian R A. All-optical frequency shifter based on stimulated Brillouin scattering in an optical fiber［J］. IEEE Photonics J, 2014, 6(2): 6600210.

[3] Zornoza A, Loayssa A. Low-cost Brillouin optical time domain analysis (BOTDA) distributed sensor setup［C］. SPIE, 2010, 7653: 765334.

[4] 黄民双, 黄军芬. 光纤移频分布式布里渊光纤传感技术［J］. 光子学报, 2011, 40(9): 1428-1432.

Huang Minshuang, Huang Junfen. Distributed fiber optic Brillouin sensing technique with frequency shifting［J］. Acta Photonica Sinica, 2011, 40(9): 1428-1432.

[5] 方秀丽, 童峥嵘, 曹晔, 等. 采用 F-P光纤环滤波器的窄线宽环形腔光纤激光器［J］. 红外与激光工程, 2013, 42(2): 329-333.

Fang Xiuli, Tong Zhengrong, Cao Ye, et al. Narrow linewidth ring cavity fiber laser using F-P fiber ring filter［J］. Infrared and Laser Engineering, 2013, 42(2): 329-333.

[6] 李小彦, 苏贤普, 张守军, 等. 布里渊单模光纤环形腔激光器实验研究［J］. 光电子·激光, 2010, 21(10): 1462-1465.

Li Xiaoyan, Su Xianpu, Zhang Shoujun, et al. Experimental study of a Brillouin single-mode fiber ring laser［J］. Journal of Optoelectronics·Laser, 2010, 21(10): 1462-1465.

[7] 周会娟, 陈默, 陈伟, 等. 超短环形腔布里渊掺铒光纤激光器［J］. 中国激光, 2012, 39(7): 0702010.

Zhou Huijuan, Chen Mo, Chen Wei, et al. Brillouin-erbium fiber laser with ultra-short ring cavity［J］. Chinese J Lasers, 2012, 39(7): 0702010.

[8] 胡红武, 肖平平. 高稳定单频Brillouin光纤激光器的研究［J］. 中国科学: 物理学、力学、天文学, 2012, 42(7): 731-736.

Hu Hongwu, Xiao Pingping. Study on highly stable single-frequency Brillouin fiber laser［J］. Scientia Sinica: Physica, Mechanica & Astronomica, 2012, 42(7): 731-736.

[9] 魏佳菊, 粱一平, 戴特力. 受激布里渊散射对光纤的影响分析［J］. 重庆师范大学学报, 2011, 28(5): 68-73.

Wei Jiaju, Liang Yiping, Dai Teli. The theory and application of stimulated Brillouin scattering in fiber［J］. Journal of Chongqing Normal University (Natural Science), 2011, 28(5): 68-73.

[10] Debut A, Randoux S, Zemmouri J. Linewidth narrowing in Brillouin lasers: theoretical analysis［J］. Phys Rev A, 2000, 62(2): 023803.

[11] 赵丽娟. 单模光纤受激布里渊散射阈值分析与计算［J］. 光纤与电缆及其应用技术, 2009, 3: 24-26.

Zhao Lijuan. Analysis and calculation of SBS threshold in single mode fibers［J］. Optical Fiber & Electric Cable, 2009, 3: 24-26.

[12] 沈一春, 宋牟平, 章献民等. 单模光纤中受激布里渊散射阈值研究［J］. 中国激光, 2005, 32(4): 497-499.

Shen Yichun, Song Muping, Zhang Xianmin, et al. Analysis and measurement of stimulated Brillouin scattering threshold in single mode fiber［J］. Chinese J Lasers, 2005, 32(4): 497-499.

[13] 肖尚辉, 李立. 影响分布式布里渊阈值功率的多参数分析［J］. 压电与声光, 2009, 31(4): 479-481.

Xiao Shanghui, Li Li. Analysis of multi-parameter effects on the distributed Brillouin threshold in single-mode fiber［J］. Piezoelectric & Acoustooptics, 2009, 31(4): 479-481.

[14] 张辉, 万生鹏, 王玉枝. 受激布里渊光纤环形激光器及其阈值分析［J］. 现代电子技术, 2009, 32(14): 127-129.

Zhang Hui, Wan Shengpeng, Wang Yuzhi. Stimulated Brillouin fiber-optic ring laser and its analysis for the threshold［J］. Modern Electronics Technique, 2009, 32(14): 127-129.

[15] 延凤平, 单英, 简水生. 受激布里渊散射光纤陀螺中光纤光源的阈值光功率研究［J］. 中国激光, 2000, 27(9): 790-794.

Yan Fengping, Shan Ying, Jian Shuisheng. Study on threshold power of the fiber source for the stimulated Brillonin scattering fiber optic gyros(SBS-FOG)［J］. Chinese J Lasers, 2000, 27(9): 790-794.

[16] Stocks L F, Chodorow M, Shaw H J. All-fiber stimulated Brillouin ring laser with submilliwatt pump threshold［J］. Opt Lett, 1982, 7(10): 509-511.

[17] Bayel P, Giles I P. Evaluation of performance parameters of single-mode all-fiber Brillouin ring laser［J］. Opt Lett, 1989, 14(11): 581-583.

[18] 张萍萍, 杨远洪, 陈淑英. 高效布里渊光纤激光器谐振腔参数优化［J］. 红外与激光工程, 2009, 38(s): 317-320.

Zhang Pingping, Yang Yuanhong, Chen Shuying. The optimization on the resonator parameters of efficient Brillouin fiber laser［J］. Infrared and Laser Engineering, 2009, 38(s): 317-320.

张晓青, 贾豫东, 董建晶. 基于光纤环形腔结构的布里渊频移器设计[J]. 光学学报, 2016, 36(12): 1214007. Zhang Xiaoqing, Jia Yudong, Dong Jianjing. Design of Brillouin Frequency Shifter Based on Ring Cavity Structure of Optical Fiber[J]. Acta Optica Sinica, 2016, 36(12): 1214007.

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