掺镱双包层光纤放大器分布泵浦方式下的优化算法
[1] Wang Y.Heat dissipation in kilowatt fiber power amplifiers[J].IEEE Quantum Electron,2004,40:731-740.
[2] Davis M K,Digonnet M J F,Pantell R H.Thermal effects in doped fibers[J].Lightwave Technol,1998,16:1013-1023.
[3] Brown D C,Hoffman H J.Thermal,stress,and thermo-optic effects in high average power double-clad silica fiber lasers[J].IEEE Quantum Electron,2001,37:207-217.
[4] Wang Y,Xu C Q,Po H.High-power double-clad fiber lasers[J].IEEE Photon Tech Lett,2004,16:63-65.
[5] Wang Y,Xu C Q,Po H.Analysis of Raman and thermal effects in kilowatt fiber lasers[J].Opt Commun,2004,242:487-502.
[6] Oron R,Hardy A A.Rayleigh backscattering and amplified spontaneous emission in high-power ytterbium-doped fiber amplifiers[J].J Opt Soc Am B,1999,16:695-701.
[7] Pask H M,Carman R J,Hanna D C.Ytterbium-doped silica fiber lasers:versatile sources for the 1-1.2 μm region[J].IEEE Select Topics Quantum Electron,1995,1:2-13.
[8] 余锦,檀慧明,钱龙生,等.纵向泵浦固体激光介质热透镜效应的理论研究[J].强激光与粒子束,2000,12(1):27-31.(Yu J,Tan H M,Qian L S,et al.Theoretical study on thermal beam focusing in longitudinally-pumped solid-state laser rods.High Power Laser and Particle Beams,2000,12(1):27-31)
[9] Innocenzi M E,Yura H T,Fincher C L,et al.Thermal modeling of continuous wave end-pumped solid-state lasers[J].Appl Phys Lett,1990,56(19):1831-1833.
[10] Brown D C,Hoffman H J.Thermal,stress,and thermo-optic effects in high average power double-clade silica fiber lasers[J].IEEE J Quantum Electronics,2001,37(2):207-217.
[13] Thomas J W.Numerical partial differential equations:finite difference methods[M].New York:Springer-Verlag,1995.
王春灿, 张帆, 陆玉春, 耿蕊, 童治, 宁提纲, 简水生. 掺镱双包层光纤放大器分布泵浦方式下的优化算法[J]. 强激光与粒子束, 2006, 18(9): 1428. 王春灿, 张帆, 陆玉春, 耿蕊, 童治, 宁提纲, 简水生. Novel optimized arithmetic for distributed pumped ytterbium-doped double-clad fiber amplifier[J]. High Power Laser and Particle Beams, 2006, 18(9): 1428.