边界主动加热管理平均功率普克尔盒热效应

张君; 张雄军; 吴登生; 田晓琳; 蒋新颖; 段文涛; 李明中

强激光与粒子束, 2010, 22 (9): 1977, 网络出版: 2010-09-21

边界主动加热管理平均功率普克尔盒热效应

Thermo-management of average power plasma electrode Pockels cell by heating electro-optic crystal side-face

论文大纲

张君 ^*张雄军吴登生田晓琳蒋新颖段文涛李明中

作者单位

中国工程物理研究院激光聚变研究中心，四川绵阳 621900

普克尔盒热管理数值模拟退偏损耗波前畸变 Pockels cell thermo-management simulation depolarization wave-front distortion

摘要

建立了平均功率激光辐照下，边界主动加热的电光晶体内3维各向异性热传输有限元模型及其热应力双折射模型，在此基础上分析了等离子体普克尔盒热效应。提出了边界主动加热控制电光晶体横向温度梯度热管理思想，并给出平均功率普克尔盒的光开关性能。结果表明：对于50 J/10 Hz、光束口径为50 mm×30 mm的激光系统，普克尔盒最大退偏损耗为3.58%，平均退偏损耗为0.9%，波前畸变为1.59λ。采用边界加热控制后，当加热功率密度为500 W/m2时，最大退偏损耗为0.17%、平均退偏损耗为0.05%、波前畸变为0.26λ，普克尔盒热效应显著降低，满足设计要求。

Abstract

Three-dimension heat transfer finite-element model in electro-optic crystal, which is orthotropic and actively heated by resistance wire, is established. Based on the model, thermo-effects are analyzed in the plasma electrodes Pockels cell. A thermo-management idea is put forward and the optical switch performance is studied in the average power Pockels cell. The results are as follows: for 50 J/10 Hz laser system with 50 mm×30 mm light beam aperture, the maximum depolarization is 3.58%, the average depolarization is 0.90 %, and PV is 1.59λ; With 500 W/m2 resistance wire heating the edge of the electro-optic crystal, the maximum depolarization of the Pockels cell reduces to 0.17%, the average depolarization is 0.05%, and PV decreases to 0.26λ. The performance of the Pockels cell is improved significantly, and meets the designing requirements.

参考文献

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[3] Weaver L F, Petty C S, Eimerl D. Multikilowatt Pockels cell for high average power laser systems［J］.J Appl Phys,1990,68(6):2589-2598.

[4] 张君, 张雄军, 魏晓峰, 等. 重频应用下等离子体电光开关热退偏损耗分析［J］. 强激光与粒子束, 2008,20(2):229-233.(Zhang Jun, Zhang Xiongjun, Wei Xiaofeng, et al. Depolarized-loss analysis of the electro-optic crystal KDP in repetition frequency laser.High Power Laser and Particle Beams,2008,20(2):229-233)

[5] 张君, 张雄军, 吴登生, 等. 等离子体普克尔盒中对流换热强度及其增强［J］.光学学报,2009,29(s1):368-373.(Zhang Jun, Zhang Xiongjun, Wu Dengsheng, et al. Convective heat transfer intensity and its enhancing in plasma electrodes Pockets’ cell.Acta Optica Sinica,2009,29(s1):368-373)

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张君, 张雄军, 吴登生, 田晓琳, 蒋新颖, 段文涛, 李明中. 边界主动加热管理平均功率普克尔盒热效应[J]. 强激光与粒子束, 2010, 22(9): 1977. Zhang Jun, Zhang Xiongjun, Wu Dengsheng, Tian Xiaolin, Jiang Xinying, Duan Wentao, Li Mingzhong. Thermo-management of average power plasma electrode Pockels cell by heating electro-optic crystal side-face[J]. High Power Laser and Particle Beams, 2010, 22(9): 1977.

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