高功率隔离器热致退偏分析与补偿设计

胡姝玲; 邬志成; 陆乔乔; 张春熹; 牛燕雄

doi:doi:10.3788/hplpb201426.011018

强激光与粒子束, 2014, 26 (1): 011018, 网络出版: 2014-01-17

高功率隔离器热致退偏分析与补偿设计

Investigation of thermal induced depolarization in high-power Faraday isolator and its compensation design

论文大纲

胡姝玲 ^*邬志成陆乔乔张春熹牛燕雄

作者单位

北京航空航天大学仪器科学与光电工程学院，北京 100191

法拉第效应隔离器高功率热致退偏效应热补偿 Faraday effect isolator high-power thermal depolarization thermal compensation

摘要

针对磁光晶体在大功率光隔离器中的应用，结合实际光学元件参数，利用琼斯矩阵分析了隔离度与入射光功率间的关系。提出基于外置材料，对磁光晶体热致退偏效应的补偿方案: 针对两种不同的常见补偿材料，给出了它们的设计参数，并对两种材料的补偿效果进行对比。结果表明，在50 W的光功率下，利用CaF2晶体和SiO2，可分别提高隔离度约15 dB和4 dB。

Abstract

For the use of the magneto-optic crystal in a high-power optical isolator, the relationship between the isolation and the incident light power is analyzed with Jones matrix using the parameters of actual optical elements. A compensation scheme for thermal induced depolarization in magneto-optic crystal is proposed, which is based on external material. The design method of the compensation scheme for two different materials is given. The result shows that at the power of 50 W, by using CaF2 crystal and SiO2, the isolation can be increased by 15 dB and 4 dB respectively.

参考文献

[1] 刘公强, 乐志强. 磁光学［M］.上海: 上海科学技术出版社, 2001: 50-51.(Liu Gongqiang, Le Zhiqiang. Magnetooptics. Shanghai: Shanghai Science and Technology Press, 2001: 50-51)

[2] 葛廷武,陆丹,伍剑,等.高功率隔离器单模与多模工作退偏特性［J］.强激光与粒子束, 2010, 22(6): 1229-1233.(Ge Tingwu, Lu Dan, Wu Jian, et al. Depolarization in high power Faraday isolators with single mode and multi-mode laser incidences. High Power Laser and Particle Beam, 2010, 22(6): 1229-1233)

[3] 赵钦,张海涛,郑超,等.高功率脉冲光隔离器非线性及热效应分析［J］.强激光与粒子束, 2013, 25(2): 281-286.(Zhao Qin, Zhang Haitao, Zheng Chao, et al. Investigation of nonlinear and thermal effects of high power pulsed laser isolators. High Power Laser and Particle Beams, 2013, 25(2): 281-286)

[4] Snetkov I L, Palashov O V. Compensation of thermal effects in Faraday isolator for high average power lasers［J］. Appl Phys B-Lasers Opt, 2012, 109(2): 239-247.

[5] Snetkov I L, Mukhin I, Palashov O V, et al. Compensation of thermally induced depolarization in Faraday isolators for high average power lasers［J］. Opt Express, 2011, 19(7): 6374-6384.

[6] Khazanov E, Andreev N, Palashov O V, et al. Effect of terbium gallium garnet crystal orientation on the isolation ratio of a Faraday isolator at high average power［J］.Appl Optics, 2002, 41(3): 483-492.

[7] Snetkov I, Vyatkin A, Palashov O, et al. Drastic reduction of thermally induced depolarization in CaF2 crystals with 111 orientation［J］. Opt Express, 2012, 20(12): 13357-13367.

[8] Weber M J. Optical materials［M］. Boca Raton: CRC Press, 1995: 46-47.

胡姝玲, 邬志成, 陆乔乔, 张春熹, 牛燕雄. 高功率隔离器热致退偏分析与补偿设计[J]. 强激光与粒子束, 2014, 26(1): 011018. Hu Shuling, Wu Zhicheng, Lu Qiaoqiao, Zhang Chunxi, Niu Yanxiong. Investigation of thermal induced depolarization in high-power Faraday isolator and its compensation design[J]. High Power Laser and Particle Beams, 2014, 26(1): 011018.

高功率隔离器热致退偏分析与补偿设计

关于本站 Cookie 的使用提示

全站搜索

高功率隔离器热致退偏分析与补偿设计

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索