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基于速率方程理论建立了石英基掺Tm3+光纤激光器3H6—3H4抽运方式的理论模型,采用龙格-库塔 (Runge-Kutta) 法对该模型进行了数值分析,得出抽运光与激光功率在掺Tm3+光纤中的分布特性,并对Tm3+光纤长度、Tm3+的掺杂浓度等因素对掺Tm3+光纤激光器性能的影响进行
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关键词:
- 石英基掺Tm3+光纤激光器 /
- 龙格-库塔法 /
- 抽运效率 /
- 掺杂浓度
In this paper, a theoretical model of Tm3+ doped silica fiber laser(TDSFL) for 3H6—3H4 pumping mechanism is established based on the rate-equation theory, and the numerical simulation is performed by using the Runge-Kutta algorithm. The introcavity power distributions of the TDSFL are obtained for both pump and laser, and the effects of Tm3+ doped fiber length and Tm3+ concentration on laser performance are analyzed.-
Keywords:
- Tm3+doped silica fiber laser /
- Runge-Kutta algorithm /
- pumping efficiency /
- doping concentration
[1] Jackson S D, King T A 1998 IEEE J. Quan. Elec. 34 1578
[2] Zhu L K, Yu J L, Wang Y T, Yang E Z 2006 Microwave and Opti. Tech. Lett. 48 1385
[3] Yang J, Yu J L, Wang Y T, Zhang L T, Yang E Z 2007 IEEE Photo. Tech. Lett. 19 807
[4] Tsang Y H, Coleman D J, King T A 2004 Opti. Comm. 231 357
[5] Yang K, Ren Q S, Wei S G, Li W R 2005 J. Laser and Optoelectr. Prog. 42 52 (in Chinese) [杨 昆、任秋实、魏石刚、李万荣 2005 激光与光电子学进展 42 52]
[6] Jackson S D, Mossman S 2003 Appl. Phys. B 77 489
[7] Komukai T, Yamamoto T, Sugawa T 1993 Elec. Lett. 29 110
[8] Dong S F, Chen G F, Wang X H, Yu L J, Zhao W, Wang Y S 2004 Acta Poto. Sin. 33 129 (in Chinese) [董淑福、陈国夫、王贤华、于连君、赵 卫、王屹山 2004 光子学报 33 129]
[9] Zhang X L, Wang Y Z, Li L, Ju Y L, Jiang B 2009 Acta Phys. Sin. 58 964 (in Chinese) [张新陆、王月珠、李 立、鞠有伦、姜 波 2009 58 964]
[10] Yan F P, Wei H, Fu Y J, Wang L, Zheng K, Mao X Q, Peng J, Liu L S, Jian S S 2009 Acta Phys. Sin. 58 6300 (in Chinese) [延凤平、魏 淮、傅永军、王 琳、郑 凯、毛向桥、彭 健、刘利松、简水生 2009 58 6300]
[11] Dong S F, Zhan S B,Chen G F, Wang X H 2005 Acta Phys. Sin. 54 3154 (in Chinese) [董淑福、占生宝、陈国夫、王贤华 2005 54 3154]
[12] Gan Z S, Yu H, Li Y M, Wang Y N, Chen H, Zhao L J 2008 Acta Phys. Sin. 57 5699 (in Chinese) [甘棕松、余 华、李妍明、王亚楠、陈 晖、赵丽娟 2008 57 5699]
[13] Men H Y, Wu Z G, Gao W Q, Zhang H, Yuan S Z, Dong X Y 2003 Chin. J. Laser 30 783 (in Chinese) [蒙红云、武志刚、高伟清、张昊、袁树忠、董孝义2003 中国激光 30 783]
[14] Zhang Y J, Wang Y Z, Ju Y L, Yao B Q 2005 J. Laser and Optoelectr. Prog. 42 34 (in Chinese) [张云军、王月珠、鞠有伦、姚宝权 2005 激光与光电子学进展 42 34]
[15] Eichhorn M 2005 IEEE J. Quan. Elec. 41 1574
[16] Jackson S D, Mossman S 2003 Appl. Opt. 42 2702
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[1] Jackson S D, King T A 1998 IEEE J. Quan. Elec. 34 1578
[2] Zhu L K, Yu J L, Wang Y T, Yang E Z 2006 Microwave and Opti. Tech. Lett. 48 1385
[3] Yang J, Yu J L, Wang Y T, Zhang L T, Yang E Z 2007 IEEE Photo. Tech. Lett. 19 807
[4] Tsang Y H, Coleman D J, King T A 2004 Opti. Comm. 231 357
[5] Yang K, Ren Q S, Wei S G, Li W R 2005 J. Laser and Optoelectr. Prog. 42 52 (in Chinese) [杨 昆、任秋实、魏石刚、李万荣 2005 激光与光电子学进展 42 52]
[6] Jackson S D, Mossman S 2003 Appl. Phys. B 77 489
[7] Komukai T, Yamamoto T, Sugawa T 1993 Elec. Lett. 29 110
[8] Dong S F, Chen G F, Wang X H, Yu L J, Zhao W, Wang Y S 2004 Acta Poto. Sin. 33 129 (in Chinese) [董淑福、陈国夫、王贤华、于连君、赵 卫、王屹山 2004 光子学报 33 129]
[9] Zhang X L, Wang Y Z, Li L, Ju Y L, Jiang B 2009 Acta Phys. Sin. 58 964 (in Chinese) [张新陆、王月珠、李 立、鞠有伦、姜 波 2009 58 964]
[10] Yan F P, Wei H, Fu Y J, Wang L, Zheng K, Mao X Q, Peng J, Liu L S, Jian S S 2009 Acta Phys. Sin. 58 6300 (in Chinese) [延凤平、魏 淮、傅永军、王 琳、郑 凯、毛向桥、彭 健、刘利松、简水生 2009 58 6300]
[11] Dong S F, Zhan S B,Chen G F, Wang X H 2005 Acta Phys. Sin. 54 3154 (in Chinese) [董淑福、占生宝、陈国夫、王贤华 2005 54 3154]
[12] Gan Z S, Yu H, Li Y M, Wang Y N, Chen H, Zhao L J 2008 Acta Phys. Sin. 57 5699 (in Chinese) [甘棕松、余 华、李妍明、王亚楠、陈 晖、赵丽娟 2008 57 5699]
[13] Men H Y, Wu Z G, Gao W Q, Zhang H, Yuan S Z, Dong X Y 2003 Chin. J. Laser 30 783 (in Chinese) [蒙红云、武志刚、高伟清、张昊、袁树忠、董孝义2003 中国激光 30 783]
[14] Zhang Y J, Wang Y Z, Ju Y L, Yao B Q 2005 J. Laser and Optoelectr. Prog. 42 34 (in Chinese) [张云军、王月珠、鞠有伦、姚宝权 2005 激光与光电子学进展 42 34]
[15] Eichhorn M 2005 IEEE J. Quan. Elec. 41 1574
[16] Jackson S D, Mossman S 2003 Appl. Opt. 42 2702
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