LD泵浦碱金属蒸气激光器中弛豫与猝灭的产热分析
杨静, 王高亮, 张云丽, 冯亚敏, 理记涛, 罗刘敏. LD泵浦碱金属蒸气激光器中弛豫与猝灭的产热分析[J]. 光子学报, 2017, 46(10): 1014001.
YANG Jing, WANG Gao-liang, ZHANG Yun-li, FENG Ya-min, LI Ji-tao, LUO Liu-min. Analysis of Heat Source of Relaxation and Quenching in Alkali Vapor Laser Pumped by Laser Diodes[J]. ACTA PHOTONICA SINICA, 2017, 46(10): 1014001.
[1] KRUPKE W, BEACH R, KANZ V,et al. Resonance transition 795-nm rubidium laser[J]. Optics Letters, 2003, 28(23): 2336-2338.
[2] EHRENREICH T, ZHDANOV B, TAKEKOSHI T,et al. Diode pumped caesium laser[J]. Electronics Letters, 2005, 41(7): 415-416.
[3] ZHDANOV B, EHRENREICH T, KNIZE R. Highly efficient optically pumped cesium vapor laser[J]. Optics Communication,2006, 260(2): 696-698.
[4] ZHDANOV B, MAES C, EHRENREICH T, et al. Optically pumped potassium laser[J]. Optics Communication,2007, 270(2): 353-355.
[5] ZHDANOV B, ROTONDARO M, SHAFFER M, et al. Efficient potassium diode pumped alkali laser operating in pulsed mode[J].Optics Express, 2014, 22(14): 17266-17270.
[6] BOGACHEV A, GARANIN S, DUDOV A, et al. Diode-pumped caesium vapour laser with closed-cycle laser-active medium circulation[J]. Quantum Electron, 2012, 42(2): 95.
[7] SHAFFER M, LILLY T, ZHDANOV B, et al. In situ non-perturbative temperature measurement in a Cs alkali laser[J].Optics Letters, 2015, 40(1): 119-122.
[8] ZHDANOV B, ROTONDARO M, SHAFFER M, et al. Measurements of the gain medium temperature in an operating Cs DPAL[J].Optics Express, 2016,24(17): 19286-19292.
[9] ZHDANOV B, ROTONDARO M, SHAFFER M, et al. Thermal effects in Cs DPAL and alkali cell window damage[C]. SPIE 2016, 9990: 99900C.
[10] 杨子宁, 王红岩, 陆启生, 等.精细结构混合速率对激光二极管抽运碱金属蒸气激光器性能的影响[J].中国激光, 2010, 37(10): 2502-2507.
[11] YANG Jing, SHEN Bing-lin, QIAN Ai-qing,et al. Thermal effects of high-power side-pumped alkali vapor lasers and the compensation method[J].IEEE Journal of Quantum Electronics, 2014, 50(12): 1029-1034.
[12] HAN Ju-hong, WANG You, CAI He, et al. Investigation of thermal features of two types of alkali-vapor cells pumped by a laser diode[J].Chinese Optics Letters, 2014, 12(s2): 20201.
[13] AUSLENDER I, BARMASHENKO B, ROSENWAKS S, et al. Modeling of pulsed K diode pumped alkali laser: Analysis of the experimental results[J].Optics Express,2015, 23(16): 20986-20996.
[14] WAICHMAN K, BARMASHENKO B, ROSENWAKS S. Computational fluid dynamics modeling of subsonic flowing-gas diode-pumped alkali lasers: comparison with semi-analytical model calculations and with experimental results[J].Journal of the Optical Society of America B, 2014, 31(11): 2628-2637.
[15] SHEN Bing-lin, PAN Bai-liang, JIAO Jian, et al. Kinetic and fluid dynamic modeling, numerical approaches of flowing-gas diode-pumped alkali vapor amplifiers[J].Optics Express, 2015, 23(15): 19500-19511.
[16] 黄伟, 谭荣清, 李志永,等. 铷蒸气激光器3D理论模型的建立及阈值特性模拟[J]. 强激光与粒子束, 2015, 27(1): 61-66.
HUANG Wei, TAN Rong-qing, LI Zhi-yong, et al.3D model and simulative investigation of the threshold characteristics of diode pumped Rb vapor laser[J].High Power Laser and Particle Beams, 2015, 27(1): 61-66.
[17] 黄伟, 谭荣清, 李志永,等. 连续泵浦准分子宽带泵浦金属激光器泵浦阈值理论研究[J]. 强激光与粒子束, 2015, 27(12): 53-59.
HUANG Wei, TAN Rong-qing, LI Zhi-yong, et al. Simulative investigation of the threshold characteristics of CW pumped four-level XPAL system[J].High Power Laser and Particle Beams, 2015, 27(12): 53-59.
[18] SHEN Bing-lin, XU Xing-qi, XIA Chun-sheng, et al. Theoretical analysis of the semi-ring and trapezoid LD side-pumped alkali vapor lasers[J].Optics Communication,2016, 380: 28-34.
[19] SHEN Bing-lin, XU Xing-qi, XIA Chun-sheng, et al. Modeling of the static and flowing-gas ring-LD side-pumped alkali vapor amplifiers[J].Applied Physics B, 2016, 122(7): 1-7.
[20] 蒋志刚, 王浟, 韩聚洪, 等, 种子光线宽影响端面抽运碱金属蒸气放大器的输出特性[J]. 中国激光, 2016, 43(5): 18-24.
JIANG Zhi-gang, WANG You, HAN Ju-hong, et al. Effects of linewidth of seed-laser on output features of end-pumped alkali vapor amplifier[J].Chinese Journal of Lasers, 2016, 43(5): 18-24.
[21] PITZ G, FOX C, PERRAM G. Transfer between the cesium 62P1/2 and 62P3/2 levels induced by collisions with H2, HD, D2, CH4, C2H6, CF4, and C2F6[J].Physical Review A, 2011, 84(3): 032708.
[22] ZISIK M. Heat Conduction[M]. 2nd ed,John Wiley & Sons, Inc., New York, 1993.
[23] LEMMON E, MCLINDEN M, FRIEND D. Thermophysical properties of fluid systems[OL].NIST chemistry webbook, NIST standard reference database, 2005, http: //webbook.nist.gov/chemistry/fluid.
[24] 谢冀江, 徐艳, 陈飞, 等. LD端面泵浦铯蒸气激光器的模式匹配[J]. 光学 精密工程, 2015, 23(10): 2755-2760.
[25] BARMASHENKO B, ROSENWAKS S,WAICHMAN K. Kinetic and fluid dynamic processes in diode pumped alkali lasers: semi-analytical and 2D and 3D CFD modeling[C]. SPIE, 2014, 8962: 89620C.
杨静, 王高亮, 张云丽, 冯亚敏, 理记涛, 罗刘敏. LD泵浦碱金属蒸气激光器中弛豫与猝灭的产热分析[J]. 光子学报, 2017, 46(10): 1014001. YANG Jing, WANG Gao-liang, ZHANG Yun-li, FENG Ya-min, LI Ji-tao, LUO Liu-min. Analysis of Heat Source of Relaxation and Quenching in Alkali Vapor Laser Pumped by Laser Diodes[J]. ACTA PHOTONICA SINICA, 2017, 46(10): 1014001.