用行波解法研究非线性偏振旋转控制光孤子系统
王正岭, 罗开基. 用行波解法研究非线性偏振旋转控制光孤子系统[J]. 光子学报, 2003, 32(1): 89.
王正岭, 罗开基. Study of the NPR System by Means of the Travelling-wave Method[J]. ACTA PHOTONICA SINICA, 2003, 32(1): 89.
[1] Matsumoto M , Hasegawa A. Numerical study of the reduction of instability in bandwith-limited amplified soliton transmission. Opt Lett,1993,18(11):897~899
[2] Kodama Y ,Romagnoli M ,Walnitz S. Soliton stability and interactions in fiber lazers. Electron Lett, 1992,28(21):1981~1983
[3] Doran N J , Wood D. Nonlinear optical loop mirror. Opt Lett,1988,13(1):56~58
[4] Matsumoto M, Ikeda H , Hasegawa A. Suppression of noise acculation in bandwith-limited soliton transmission by means of nonlinear loop mirrors. Opt Lett,1994,19(3):183~185
[5] Matsumoto M, Hasegawa A, Kodama Y. Adiabatic amplification of soliton by means of nonlinear loop mirrors. Opt Lett,1994,19(14):1019~1021
[6] Atkinson D,Loh W H, Afanasjev V V, et al. Increased amlifier spacing in a soliton system with quantum-well saturable absorbers and special filtering. Opt Lett,1994,19(19):1514~1516
[7] Afanasjev V V. Soliton singularity in the system with nonlinear gain. Opt Lett,1995,20(7):704~706
[8] Afanasjev V V,Akhmediev N. Soliton interaction and bound states in amplified-damped fiber system. Opt Lett,1995,20(19):1970~1972
[9] 杨祥林,温扬敬. 光纤孤子理论研究.北京:国防工业出版社,2001,1.230~232;116~117Yang X L,Wen Y J.The theroy of fiber solution.BeiJing:National Defence Industry Press,2001,1.230~232;116~117
[10] Fermann M,Halerl F,Hofer M, et al. Nonlinear amplifier loop mirror. Opt Lett,1990,15(13):752~754
王正岭, 罗开基. 用行波解法研究非线性偏振旋转控制光孤子系统[J]. 光子学报, 2003, 32(1): 89. 王正岭, 罗开基. Study of the NPR System by Means of the Travelling-wave Method[J]. ACTA PHOTONICA SINICA, 2003, 32(1): 89.