大功率TEA CO<sub>2</sub>非稳腔激光器的远场传输特性

王晓铭; 郭劲; 郭汝海; 王挺峰

doi:10.3788/CO.20120506.0671

大功率TEA CO₂非稳腔激光器的远场传输特性

doi: 10.3788/CO.20120506.0671

1.
海军驻上海地区航天系统军事代表室,上海 201109;
2.
中国科学院长春光学精密机械与物理研究所激光与物质相互作用国家重点实验室,吉林长春 130033

基金项目:

吉林省自然科学基金资助项目(No.201115123);激光与物质相互作用国家重点实验室自主基础研究课题资助项目(No.SKLLIM1004-01);院地合作长吉图专项基金资助项目(No.2011CJT0006)

详细信息

通讯作者:
郭汝海

中图分类号: TN248.92
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出版历程
- 收稿日期: 2012-10-08
- 修回日期: 2012-11-23
- 刊出日期: 2012-12-10

Far-field transmittance characteristics of high-power unstable resonator TEA CO₂ laser

1.
Aerospace Commissary of Navy in Shanghai,Shanghai 201109,China;
2.
State Key Laboratory of Laser Interaction with Matter,Changchun Institute of Optics, Fine Mechanics and Physics,Chinese Academy of Sciences,Changchun 130033,China

摘要

摘要: 针对大功率激光器的远场传输特性,提出了一种测量TEA CO2远场光束传输特性的新方法,该法采用相对测量和绝对测量相结合的方式来获得高能激光器的绝对空间光强分布。利用该方法测试了2 kW脉冲TEA CO2非稳腔激光器在500 m处的光强分布,并对测试结果进行了分析讨论。实验结果表明,此方法简单、易行,准确度较高,而且测量过程中考虑了大气湍流的影响,光斑强度相对分布上出现了平顶、破碎并出现旁瓣现象,实测大气透过率为81.5%,最大功率密度为1.59 W/cm2,光束的横向远场发散角达到0.64 mrad,基本与理论计算结果相吻合。本研究将为评估激光系统的应用效果及系统的优化设计提供重要的参考。
- 非稳腔激光器 /
- 光束传输特性 /
- 发散角 /
- 功率密度分布
Abstract: A new method combining relative measurement and absolute measurement is proposed to measure the transmittance characteristics of far-field beam quality of TEA CO2 lasers, and the intensity distribution for a 2 kW pulsed TEA CO2 laser in the distance of 500 m is obtained. The measurement results are discussed and analyzed. The experimental results show that the measurement is convenient and precise, and the influence of atmospheric turbulence is also taken into consideration. Flat top, fragmentation and furthermore side lobe appear in the intensity distribution. Measured by this method, the transmission rate of atmosphere is 81.5%, the maximum intensity is 1.59 W/cm2 and the divergence angle of cross direction is up to 0.64 mrad, which agree with the theoretical results. It is a very important reference for evaluating the effectiveness and optimization design of laser systems.
- unstable resonator laser /
- beam transmittance characteristic /
- divergence angle /
- power density distribution

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参考文献(1)

[1] SIEGMAN A E,TOWNSEND S. Output beam propagation and beam quality from a multimode stable-cavity laser[J]. IEEE J. Quant. Electron.,1993,29:1212-1217. [2] BE1ANGER P,CHAMPAGNE Y,PARE C. Beam propagation factor of diffracted laser beams[J]. Opt. Commun.,1994,105:233-242. [3] WANG Y P,HUANG J Y,QIAO G L. A method for evaluating high energy laser beam quality[J]. J. Optoelectronics·Laser,2001,12:1029-1033. [4] 郭汝海. 化学氧碘激光器(COIL)的研究进展[J]. 光机电信息 ,2010,27(5):22-28. GUO R H. Development review of chemical oxygen-iodine lasers(COIL)[J]. OME Information,2010,27(5):22-28.(in Chinese) [5] 郭汝海,施龙,王思雯,等. HF/DF化学激光器的研究进展[J]. 光机电信息 ,2010,27(3):30-35. GUO R H,SHI L,WANG S W,et al.. Development review of HF/DF chemical lasers[J]. OME Information,2010,27(3):30-35.(in Chinese) [6] 刘泽金,陆启生,赵伊君. 高能非稳腔激光器光束质量评价的探讨[J]. 中国激光 ,1998,25(3):193-196. LIU Z J,LU Q SH,ZHAO Y J. Study of evaluating beam quality of high energy lasers with unstable resonators[J]. Chinese J·Lasers,1998,25(3):193-196.(in Chinese) [7] 曹一磊,高春清. 基于面阵CCD的激光光束参数测量系统精度分析[J]. 光学技术 ,2004,30(5):583-586. CAO Y L,GAO CH Q. Analysis on the accuracy of beam parameter measurement by using CCD array[J]. Optical Technique,2004,30(5):583-586.(in Chinese) [8] MA X Y,RAO CH H,ZHENG H Q. Error analysis of CCD-based point source centroid computation under the background light[J]. Opt. Express,2009,17:8525-8541. [9] BORN M,WOLF E. Priciples of Optics[M]. 4th ed. Oxford:Pergmon Press,1975. [10] REPASI E,WEISS R. Analysis of image distortion by atmospheric turbulence and computer simulation of turbulence effects[J]. SPIE,2008,6941:69410S. [11] TIAN Y Z,GUO J,WANG R,et al.. Mathematical model analysis of Gaussian beam propagation an arbitrary thickness random phase screen[J]. Opt. Express,2011,19:18126-18228.

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