[1] de Matos C J, Brito-Silva A M et al. . Random fiber laser[J]. Physical Review Letters, 99, 153903(2007).
[3] Turitsyn S K, Babin S A. El-Taher A E, et al. Random distributed feedback fibre laser[J]. Nature Photonics, 4, 231-235(2010).
[6] Wang Z H, Yan P, Huang Y S et al. An efficient 4-kW level random fiber laser based on a tandem-pumping scheme[J]. IEEE Photonics Technology Letters, 31, 817-820(2019).
[7] Zhang H W, Huang L, Song J X et al. Quasi-kilowatt random fiber laser[J]. Optics Letters, 44, 2613-2616(2019).
[11] Huang L, Xu J M, Ye J et al. Power scaling of linearly polarized random fiber laser[J]. IEEE Journal of Selected Topics in Quantum Electronics, 24, 0900608(2018).
[12] Ma R, Rao Y J, Zhang W L et al. Broadband supercontinuum light source seeded by random distributed feedback fiber laser[J]. Proceedings of SPIE, 10323, 103237P(2018).
[13] Ma R, Rao Y J, Zhang W L et al. Backward supercontinuum generation excited by random lasing[J]. IEEE Journal of Selected Topics in Quantum Electronics, 24, 0901105(2018).
[14] Ma R, Rao Y J, Zhang W L et al. Stable supercontinuum source based on random lasing[J]. Proceedings of SPIE, 10591, 105910W(2018).
[15] 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, 085111(2018).
[16] Chen L, Song R, Lei C et al. Influences of position of ytterbium-doped fiber and ASE pump on spectral properties of random fiber laser[J]. Optics Express, 27, 9647-9654(2019).
[19] Perret S, Fanjoux G, Bigot L et al. Supercontinuum generation by intermodal four-wave mixing in a step-index few-mode fibre[J]. APL Photonics, 4, 022905(2019).