不同Yb<sup>3+</sup>掺杂分布对多模光纤振荡器的影响

王文亮; 冷进勇; 曹涧秋; 郭少锋; 姜宗福

doi:doi:10.3788/cjl201340.0702010

中国激光, 2013, 40 (7): 0702010, 网络出版: 2013-07-01

不同Yb³⁺掺杂分布对多模光纤振荡器的影响

Effect of Different Yb³⁺ Dopant Profiles on Output Characteristics of Multimode Fiber Oscillator

论文大纲

王文亮 ^*冷进勇曹涧秋郭少锋姜宗福

作者单位

国防科学技术大学光电科学与工程学院，湖南长沙 410073

激光器高功率多模光纤振荡器 Yb3+掺杂分布基模高阶模 lasers high power multimode fiber oscillator Yb3+ dopant profile fundamental mode high-order mode

摘要

光纤纤芯中不同的掺杂分布对高功率多模光纤振荡器输出特性有重要的影响。通过建立多模光纤振荡器理论模型，求解光纤振荡器速率方程组，数值模拟了均匀型及抛物线型Yb3+掺杂的双包层增益光纤接入激光器时的输出特性；并针对纤芯75%区域内均匀掺杂Yb3+的情况，通过引入模式耦合系数矩阵，分析了掺杂分布对光纤振荡器输出特性的影响。计算结果表明,不同的Yb3+掺杂分布对振荡输出特性的影响存在差异；通过设计光纤内Yb3+掺杂分布规律和形状，可有效抑制多模光纤振荡器中的高阶模式，从而使多模光纤振荡器实现基模输出。

Abstract

A theoretical model of high power multimode fiber oscillator is built based on rate equations of the multimode Yb3+ doped fiber considering improvement of the mode coupling in the core. The effect of Yb3+ dopant profiles in the core on the output characteristics of fiber oscillator is carried out. The output characteristics of the high power multimode fiber oscillator with flat and parabolic dopant profiles fibers are described respectively. The output characteristics of the fiber oscillator with 75% flat dopant profiles fibers in different coupling coefficients are described. The results show that the different Yb3+ dopant profiles may have different impacts on the output characteristics. Specially, the fundamental mode output can be achieved by designing and controlling the Yb3+ dopant profiles.

参考文献

[1] G. P. Agrawal. Nonlinear Fiber Optics (2nd edition)［M］. London: Academic Press， 1995.

[2] Jaoun Yves， Canat Guillaume， Grot Sébastien， et al.. Power limitation induced by nonlinear effects in pulsed high-power fiber amplifiers［J］. Comptes Rendus Physique， 2006， 7(2): 163-169.

[3] R. Paschotta, J. Nilsson, A. C. Tropper, et al.. Ytterbium-doped fiber amplifiers［J］. IEEE J Quantum Electron, 1997, 33(7): 1049-1056.

[4] A. Hardy, R. Oron. Signal amplification in strongly pumped fiber amplifiers［J］. IEEE J. Quantum Electron, 1997, 33(3): 307-313.

[5] D. Gloge. Optical power flow in multimode fibers［J］. The Bell System Technical Journal, 1972, 51(10): 1767-1783.

[6] M. Hotoleanu, M. Soderlund, D. Kliner, et al.. High order modes suppression in large mode area active fibers by controlling the radial distribution of the rare earth dopant［C］. SPIE, 2006, 6102: 425-432.

[7] Gong Mali, Yuan Yanyang, Li Chen, et al.. Numerical modeling of transverse mode competition in strongly pumped multimode fiber laser and amplifiers［J］. Opt Express, 2006, 15(6): 3236-3246.

[8] 陈爽, 王玲, 冯莹. 掺杂分布对多模光纤放大器输出特性的影响［J］. 光电工程, 2009, 36(4): 81-85.

Chen Shuang, Feng Ying, Wang Ling. Effect of rare earth dopant profiles on the output characteristics of the multimode fiber amplifier［J］. Opto-Electronic Engineering, 2009, 36(4): 81-85.

[9] C. Rany, E. Desurvire. Modeling erbium-doped fiber amplifier［J］. Lightwave Technol, 1991, 9(2): 271-283.

[10] D. Marcuse. Theory of Dielectric Optical Waveguides［M］. London: Academic Press, 1974.

[11] W. A. Gambling, D. P. Payne, H. Matsumura. Mode conversion coefficients in optical fibers［J］. Appl Opt, 1975, 14(7): 1538-1542.

王文亮, 冷进勇, 曹涧秋, 郭少锋, 姜宗福. 不同Yb³⁺掺杂分布对多模光纤振荡器的影响[J]. 中国激光, 2013, 40(7): 0702010. Wang Wenliang, Leng Jinyong, Cao Jianqiu, Guo Shaofeng, Jiang Zongfu. Effect of Different Yb³⁺ Dopant Profiles on Output Characteristics of Multimode Fiber Oscillator[J]. Chinese Journal of Lasers, 2013, 40(7): 0702010.

不同Yb³⁺掺杂分布对多模光纤振荡器的影响

关于本站 Cookie 的使用提示

全站搜索

不同Yb3+掺杂分布对多模光纤振荡器的影响

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索

不同Yb³⁺掺杂分布对多模光纤振荡器的影响