HF激光器腔内气动介质有序扰动的数值模拟

许晓军; 陆启生; 袁圣付; 刘泽金

中国激光, 2002, 29 (2): 113, 网络出版: 2006-08-08

HF激光器腔内气动介质有序扰动的数值模拟

Numerical Simulation of Ordered Aero-optical Aberrations in Hydrogen Fluoride Chemical Lasers

论文大纲

许晓军 ^*陆启生袁圣付刘泽金

作者单位

国防科技大学理学院,湖南长沙,410073

HF化学激光器不均匀性气动光学喷管数值计算 HF chemical laser inhomogeneity aero-optics nozzle numerical simulation

摘要

通过对化学激光器腔内介质不均匀性的分析指出,HF连续波化学激光器(CWCL)腔内的气动介质的有序不均匀扰动将是影响输出光束质量的主要因素之一.利用建立的激光器腔内二维折射率分布模型对基频和泛频HF CWCL有无激射条件下腔内气动介质的有序分布进行了数值计算.分析比较了3-Slot(3S)和2-Slot(2S)喷管结构的激光器的性能和气动介质对光束质量的影响.数值模拟指出,在望远式非稳腔输出条件下,腔内1 m喷管阵列的气动介质有序不均匀扰动对光束质量的影响不大,但由于相位扰动的均方差将随喷管阵列长度的平方增大,对于HF泛频输出尤应重视.另外,3S在工作性能和光束质量方面均优于2S.

Abstract

It was pointed out that the ordered aero optical aberrations in Hydrogen Fluoride (HF) continuous wave chemical laser (CWCL)′s cavity is one of the main factors influncing laser beam quality by the analysis of the inhomogeneous medium in laser cavity. The 2D refractive index model in HF CWCL was set up to simulate the inhomogeneity distributions in main tone/over tone HF CWCL′s cavities in the condition of power/zero power output. With it, the performance and beam quality in 3 Slot (3S) and 2 Slot (2S) structure lasers were computed and analyzed. By the simulation, it was shown that the ordered aero optical aberrations in the telescopic unstable cavity are not significant in nozzles array of 1 m length. But with the increase of the length of nozzles array, it will be important, especially for the over tone HF lasers. In addition, the performance and beam quality of 3S are better than that of 2S.

参考文献

[1] . E. Fuhs. Overview of aero-optical phenomena[J]. SPIE, 1981, 293: 36-55.

[2] V. L. Moshkov. Spatial and temporal scales of active medium inhomogeneous in high power gas lasers [C]. R. Kossowsky et al. (eds.), High Power Lasers-Science and Engineering, Netherlands: Kluwer Academic Publishers, 1996. 47～82

[3] . W. Sutton. Aero-optical foundations and applications[J]. AIAA J., 1985, 23(10): 1525-1537.

[4] . W. Sutton. Influence of the turbulent pulsation of the optical active medium on the light beam[J]. AIAA J., 1969, 7(9): 94-103.

[5] W. A. Duncan, S. P. Patterson, B. R. Graves. Overtone research, advanced chemical laser module design [C]. SPIE, 1994, 2119:47～58

[6] R. E. Waldo. Advanced cw hydrogen fluoride chemical laser performance [C]. SPIE, 1993, 1871:252～264

[7] S. W. Zelazny, W. A. Chambers, W. F. van Tassell et al.. Medium induced phase aberrations in continuous wave (cw) hydrogen fluoride chemical lasers [C]. SPIE, 1981, 293:126～132

[8] R. W. Gross, J. F. Bott. Handbook of Chemical Lasers [M]. New York: John Wiley & Sons, 1976. 267～272

[9] Y. Egorov. Navier-Stokes Modeling of 2D and 3D Reactive Flow on the Basis of Compressibility Scaling Method [M]. Germany: Stuttgart, 1994. 815～820

[10] Hua Weihong, Jiang Zhongfu, Zhao Yijun. Numerical study of the 3-slot CW HF chemical laser [J]. Chinese J. Lasers (中国激光), 1997, A24(3):221～227 (in Chinese)

[11] Liu Zejin, Lu Qisheng, Zhao Yijun. Study of evaluating beam quality of high energy lasers with unstable resonators [J]. Chinese J. Lasers (中国激光), 1998, A25(3):193～196

[12] E. L. O'Neill. Introduction to Statistical Optics [M]. Addison-Wesley, Reading, Mass., 1963. 88

[13] D. L. Carroll. Experimential and theoretical study of CW HF chemical laser overtone performance [D]. UMI Dissertation Service, University of Sonthern California, 1996

[14] Y. A. Ananyev. Optical Resonators and the Problem of the Laser Radiation Divergence [M]. Moscow: Nauka, 1979

许晓军, 陆启生, 袁圣付, 刘泽金. HF激光器腔内气动介质有序扰动的数值模拟[J]. 中国激光, 2002, 29(2): 113. 许晓军, 陆启生, 袁圣付, 刘泽金. Numerical Simulation of Ordered Aero-optical Aberrations in Hydrogen Fluoride Chemical Lasers[J]. Chinese Journal of Lasers, 2002, 29(2): 113.

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