[1] Clarkson W A. High-power fiber sources: Recent advances and future prospects[C]. Frontiers in Optics, SanJose, California, 2007: FMA1.
[2] Sen R,Pal A. Rare earth doped fibers for fiber laser: Opportunities and challenges[C]. International Conference on Fiber Optics and Photonics, OSA, 2012: T2C.1.
[3] Dudley J M, Finot C, Richardson D J, et al. Self-similarity in ultrafast nonlinear optics[J]. Nature Physics, 2007, 3(9):597-603.
[4] Finot C, Pitois S, Millot G. Regenerative 40-Gb/s wavelength converter based on similariton generation[J]. Opt. Lett., 2005, 30(14): 1776-1778.
[5] Feng Jie, Du Guoping, Zhu Ruixing, et al. Progress of ultra-short self-similar pulse optical fiber lasers[J]. Laser and Optoelectronics Progress, 2011, 48(8): 081409.
[6] Bucklew V G, Pollock C R. Realizing self-similar pulses in solid-state laser systems[J]. Journal of the Optical Society of America B, 2012, 29(11): 3027-3033.
[8] Ozeki Y, Takushima Y, Aiso K, et al. Generation of 10 GHz similariton pulse trains from 1.2 km-long erbium-doped fibre amplifier for application to multi-wavelength pulse sources[J]. Electron. Lett., 2004, 40(18): 1103-1104.
[9] Nie B, Pestov D, Wise F W, et al. Generation of 42-fs and 10-nJ pulses from a fiber laser with self-similar evolution in the gain segment[J]. Opt. Expr., 2011, 19(13): 12074-12080.
[10] Lefrancois S, Liu C H, Stock M L, et al. High-energy similariton fiber laser using chirally coupled core fiber[J]. Opt. Lett., 2013, 38(1): 43-45.