为使输出波长为373.7/370.6 nm的ca+复合激光能达到实际应用的水平,对Ca+复合激光放电管温度场进行了分析,通过求解热流耗散泊松方程,获得了Ca+复合激光放电管气体温度场径向分布的解析表达式,明确了温度分布与输入电功率及缓冲气体热传导系数之间的关系,分析了放电管温度场分布与输出功率的关系,指出径向温度分布不均匀是导致输出功率受限的主要原因之一,其结果与实验一致,为该类激光器的实用化研究提供了理论分析结论.
参考文献
| [1] | Latush E L,Sem Kvant M F.Electron stimulated emission due to transition in alkaline-earth metal[J].Sov.J.Quantum Electron,1973,3(3):216-219. |
| [2] | Jin Yongxing,Yao Zhixin,Pan Bailiang,et al.Experiments study of a Ca+recombination laser[J].Chinese Journal of Laser(中国激光),1997,24(6):486-488(in Chinese). |
| [3] | Mao Bangning,Wang Limin,et al.Analysis of radial temperature field for a metal-vapor laser tube with an axial temperature controller[J].Acta Optica Sinica(光学学报),2008,28(3):512-515(in Chinese). |
| [4] | Yao Zhixin,Qian Yujun,et al.Analyses and measurements of radial temperature distribution in a copper vapor laser[J].Chinese Journal of Laser(中国激光),1995,22(5):333-337(in Chinese). |
| [5] | Bukshpum L M,Latush E L,Sem M F.Influence of the temperature of the active medium on the stimulated emission characteristics of an Sr-He recombination laser[J].Sov.J.Quantum Electron,1988,18(9):1098-1100. |
| [6] | Kushner M J,Warner B E.Large-bore copper-vapor lasers:Kinetics and scaling issues[J].J.Appl.Phys.,1983,54(6):2970-2982. |
| [7] | Sokolov A V,Sviridov A V.Transverse-discharge copper vapor laser[J].Sov.J.Quantum Electron,1981,11(8):1019-1026. |
| [8] | Chatterjee S N,Roy B N.Electron impact double ionization of Ca and Sr[J].Phys.B:At.Mol.Phys.,1984,17:2527-2534. |
| [9] | Latush E L,et al.Gas-discharge recombination lasers based on strontium and calcium vapors:a review[J].Opt.Spectrose.,1992,72(5):672-680. |
| [10] | Carman R J.A self-consistent model for a longitudinal discharge excited He-Sr recombination laser[J].IEEE J.Quant.Electr.,1990,QE-26(9):1588-1608. |
| [11] | Ma Tao.The dynamic plasma characteristics in the CuBr laser discharge tube in different circuit[J].Chinese Journal of Quantum Electronics(量子电子学报),2006,23(1):46-49(in Chinese). |
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