Study on Parabolic Self-Similar Pulse Generation in a Nonlinearity Increasing Fiber

[1] [1] M. E. Fermann, V. I. Kruglov, B. C. Thomsen et al.. Self-similar propagation and amplification of parabolic pulse in optical fibers ［J］. Phys. Rev. Lett., 2000, 84(26): 6010～6013

[2] [2] V. I. Kruglov, A. C. Peacock, J. D. Harvey. Self-similar propagation of parabolic pulses in normal-dispersion fiber amplifiers［J］. J. Opt. Soc. Am. B, 2002, 19(3): 461～469

[3] [3] A. C. Peacock, N. G. R. Broderick, T. M. Monro. Numerical study of parabolic pulse generation in microstructured fiber Raman amplifiers［J］. Opt. Commun., 2003, 218(1\|3): 167～172

[4] [4] Xu Dangpeng, Wang Jianjun, Lin Honghuan et al.. Self-similar propagation and amplification of high-power pulses in large mode area ytterbium doped fiber［J］. Acta Optica Sinica, 2009, 29(11): 2994～2999

[5] [5] T. Hirooka, M. Nakazawa. Parabolic pulse generation by use of a dispersion-decreasing fiber with normal group-velocity dispersion［J］. Opt. Lett., 2004, 29(5): 498～500

[6] [6] Zhang Qiaofen. Generation of excellent self-similar pulse in a dispersion-decreasing fiber with normal group-velocity dispersion［J］. Laser & Infrared, 2008, 38(1): 59～62

[7] [7] B. Kibler, C. Billet, P.-A. Lacourt et al.. Parabolic pulse generation in comb-like profiled dispersion decreasing fibre［J］. Electron. Lett., 2006, 42(17): 965～967

[8] [8] Dipankar Ghosh, Mousumi Basu, Somenath Sarkar. Generation of self-similar parabolic pulse by designing normal dispersion decreasing fiber amplifier as well as its staircase substitutes［J］. J. Lightwave Technol., 2009, 27(17): 3880～3887

[9] [9] Jia Guangming, Jia Dongfang, Li Shichen. Highly nonlinear optical fibers and their applications［J］. Study on Optical Communication, 2003， (1): 43～46

[10] [10] Liu Jie, Yang Changxi, Claire Gu et al.. A novel photonic crystal fiber with high nonlinearity and flattened dispersion［J］. Acta Optica Sinica, 2006, 26(6): 1569～1574

[11] [11] Wu Ming, Liu Hairong, Huang Dexiu. Dispersion property in highly nonlinear photonic crystal fiber［J］. Acta Optica Sinca, 2008, 28(3)： 539～542

[12] [12] Chen Haitao, Wang Fei, Deng Tao. Study of self-similar evolution for optical pulse in nonlinearity increasing fibers［J］. Laser Technology, 2010， 34(2): 218～220

[13] [13] Feng Jie, Xu Wencheng, Li Shuxian et al.. Analytic solutions of self-similar pulse based on Ginzburg-Landau equation with constant coefficients［J］. Science in China Series G: Physics, Mechanics & Astronomy, 2007， 37(4): 427～433

[14] [14] G. P. Agrawal. Nonlinear Fiber Optics［M］. 3rd edition, Beijing: Publishing House of Electronics Industry, 2002. 20～30

CLP Journals

[1] Li Chao, Zhao Lei, Huang Zhihua, Lin Honghuan, Tian Xiaocheng, Deng Ying, Huang Xiaojun, Zhu Qihua. Theory Study on Self-Similar Pulse in Mode-Locked Fiber Laser[J]. Chinese Journal of Lasers, 2013, 40(6): 602017

[2] Lü Hua, Zhang Qiaofen, Wu Xiao. Research of Self-Similar Region in a Dispersion-Decreasing Fiber[J]. Acta Optica Sinica, 2012, 32(6): 619002

[3] Wang Dake, Wang Juanfen, Dang Tingting, Zhang Zhaoxia, Yang Lingzhen. Generation and Management of Optical Self-Similar Waves in Inhomogeneous Graded-Index Waveguides[J]. Acta Optica Sinica, 2014, 34(7): 719002

Tools

Get Citation

Copy Citation Text

Li Liping, Zhang Ailing. Study on Parabolic Self-Similar Pulse Generation in a Nonlinearity Increasing Fiber[J]. Chinese Journal of Lasers, 2011, 38(8): 805006

Download Citation

EndNote(RIS)BibTex Plain Text

Set citation alerts for article

Save article for my favorites