[1] SUN C, GE T W, LI S Y et al. 53.3 W visible-waveband extra high power supercontinuum all-fiber laser[J]. IEEE Photonics Journal, 8, 1-7.

[2] DUDLEY J M, GENTY G, COEN S. Supercontinuum generation in photonic crystal fiber[J]. Reviews of Modern Physics, 78, 1135-1184(2006).

[3] 李曙光, 姚艳艳, 付博. 光子晶体光纤中超连续谱的研究进展与应用[J]. 物理, 39, 682-690(2010).

     LI SH G, YAO Y Y, FU B et al. Development and application of supercontinuum generation in photonic crystal fibers[J]. Physics, 39, 682-690(2010).

[4] LIU Y T, HUANG F F, SHEN D Y et al. Research progress of mid-infrared supercontinuum generation based on soft glass fiber[J]. Chinese Journal of Luminescence, 45, 111-124(2024).

     刘艳婷, 黄飞飞, 沈丹阳. 基于软玻璃光纤产生中红外超连续谱研究进展[J]. 发光学报, 45, 111-124(2024).

[5] DUDLEY J M, TAYLOR J R[M]. Supercontinuum Generation in Optical Fibers(2010).

[6] DUAN B, DONG J, LIU Q M et al. Supercontinuum spectrum in As₂S₃ photonic crystal fibers assisted with LiNbO₃ crystal rods[J]. Opt. Precision Eng., 32, 2752-2762(2024).

     段博, 董洁, 刘庆敏. LiNbO₃棒辅助型As₂S₃光子晶体光纤中的超连续谱[J]. 光学 精密工程, 32, 2752-2762(2024).

[7] RAO Y J, WANG Z N, ZHANG W L[M]. Principle and Application of Fiber Random Laser(2018).

[8] LIZÁRRAGA N, PUENTE N P, CHAIKINA E I et al. Single-mode Er-doped fiber random laser with distributed Bragg grating feedback[J]. Optics Express, 17, 395-404(2009).

[9] MA R, ZHANG W L, WANG S S et al. Simultaneous generation of random lasing and supercontinuum in a completely-opened fiber structure[J]. Laser Physics Letters, 15(2018).

[10] CHENG X, DONG J Y, ZENG X et al. 130 W continuous-wave supercontinuum generation within a random Raman fiber laser[J]. Optical Fiber Technology, 68, 102825(2022).

[11] HE J R, SONG R, JIANG L et al. Ultra-compact 50 W flat supercontinuum generation in single-stage self-Q-switched fiber laser with photonic crystal fiber[J]. IEEE Photonics Journal, 14, 1-6.

[12] ALEXANDER V V, KULKARNI O P, KUMAR M et al. Modulation instability initiated high power all-fiber supercontinuum lasers and their applications[J]. Optical Fiber Technology, 18, 349-374(2012).

[13] DONG H ZH, GE T W, LIU W et al. Picosecond pulsed near infrared supercontinuum laser[J]. Opt. Precision Eng., 30, 2430-2435(2022).

     董航舟, 葛廷武, 刘伟. 皮秒脉冲近红外超连续谱激光器[J]. 光学 精密工程, 30, 2430-2435(2022).

[14] NAKAZAWA M, SUZUKI K, KUBOTA H et al. High-order solitons and the modulational instability[J]. Physical Review A, 39, 5768-5776(1989).

[15] KUTZ J N, LYNGÅ C, EGGLETON B. Enhanced supercontinuum generation through dispersion-management[J]. Optics Express, 13, 3989-3998(2005).

[16] RAJA R V J, PORSEZIAN K, NITHYANANDAN K. Modulational-instability-induced supercontinuum generation with saturable nonlinear response[J]. Pysical Review A, 82(2010).

[17] HUSAKOU A V, HERRMANN J. Supercontinuum generation of higher-order solitons by fission in photonic crystal fibers[J]. Physical Review Letters, 87, 203901(2001).

[18] DAWSON J W, MESSERLY M J, BEACH R J et al. Analysis of the scalability of diffraction-limited fiber lasers and amplifiers to high average power[J]. Optics Express, 16, 13240-13266(2008).

[19] CHERIF R, ZGHAL M, TARTARA L et al. Supercontinuum generation by higher-order mode excitation in a photonic crystal fiber[J]. Optics Express, 16, 2147-2152(2008).