[1] J M DUDLEY, F DIAS, M ERKINTALO et al. Instabilities, breathers and rogue waves in optics. Nature Photonics, 8, 755-764(2014).

[2] D R SOLLI, C ROPERS, P KOONATH et al. Optical rogue waves. Nature, 450, 1054-1057(2007).

[3] B KIBLER, J FATOME, C FINOT et al. The Peregrine soliton in nonlinear fibre optics. Nature Physics, 6, 790-795(2010).

[4] B KIBLER, J FATOME, C FINOT et al. Observation of Kuznetsov-Ma soliton dynamics in optical fibre. Scientific reports, 2, 1-5(2012).

[5] J M DUDLEY, G GENTY, F DIAS et al. Modulation instability, Akhmediev Breathers and continuous wave supercontinuum generation. Optics Express, 17, 21497-21508(2009).

[6] P WALCZAK, S RANDOUX, P SURET. Optical rogue waves in integrable turbulence. Physical Review Letters, 114, 143903(2015).

[7] A CHABCHOUB, NP HOFFMANN, N AKHMEDIEV. Rogue wave observation in a water wave tank. Physical Review Letters, 106, 204502(2011).

[8] S BURGER, K BONGS, S DETTMER et al. Dark solitons in Bose-Einstein condensates. Physical Review Letters, 83, 5198(1999).

[9] K E STRECKER, G B PARTRIDGE, A G TRUSCOTT et al. Formation and propagation of matter-wave soliton trains. Nature, 417, 150-153(2002).

[10] L KHAYKOVICH, F SCHRECK, G FERRARI et al. Formation of a matter-wave bright soliton. Science, 296, 1290-1293(2002).

[11] Rui GUO, Yuefeng LIU, Huiqin HAO et al. Coherently coupled solitons, breathers and rogue waves for polarized optical waves in an isotropic medium. Nonlinear Dynamics, 80, 1221-1230(2015).

[12] Hao XIONG, Jinghui GAN, Ying WU. Kuznetsov-Ma soliton dynamics based on the mechanical effect of light. Physical Review Letters, 119, 153901(2017).

[13] Chaoqing DAI, Yueyue WANG, Xiaofei ZHANG. Controllable Akhmediev breather and Kuznetsov-Ma soliton trains in PT-symmetric coupled waveguides. Optics Express, 22, 29862-29867(2014).

[14] Xueming LIU, Xiankun YAO, Yudong CUI. Real-time observation of the buildup of soliton molecules. Physical Review Letters, 121, 023905(2018).

[15] Xueming LIU, D POPA, N AKHMEDIEV. Revealing the transition dynamics from Q switching to mode locking in a soliton laser. Physical Review Letters, 123, 093901(2019).

[16] Xiuqi WU, Junsong PENG, S BOSCOLO et al. Intelligent breathing soliton generation in ultrafast fiber lasers. Laser & Photonics Reviews, 16, 2100191(2022).

[17] J M SOTO-CRESPO, A ANKIEWICZ, N DEVINE et al. Modulation instability, Cherenkov radiation, and Fermi-Pasta-Ulam recurrence. Journal of the Optical Society of America B, 29, 1930-1936(2012).

[18] M ERKINTALO, K HAMMANI, B KIBLER et al. Higher-order modulation instability in nonlinear fiber optics. Physical Review Letters, 107, 253901(2011).

[19] M CONFORTI, A MUSSOT, A KUDLINSKI et al. Doubly periodic solutions of the focusing nonlinear Schrödinger equation: Recurrence, period doubling, and amplification outside the conventional modulation-instability band. Physical Review A, 101, 023843(2020).

[20] Chong LIU, Yuhan WU, Shaochun CHEN et al. Exact analytic spectra of asymmetric modulation instability in systems with self-steepening effect. Physical Review Letters, 127, 094102(2021).

[21] D R SOLLI, C ROPERS, B JALALI. Active control of rogue waves for stimulated supercontinuum generation. Physical Review Letters, 101, 233902(2008).

[22] B FRISQUET, B KIBLER, G MILLOT. Collision of Akhmediev breathers in nonlinear fiber optics. Physical Review X, 3, 041032(2013).

[23] V E ZAKHAROV, A A GELASH. Nonlinear stage of modulation instability. Physical Review Letters, 111, 054101(2013).

[24] E A KUZNETSOV. Solitons in a parametrically unstable plasma, 236, 575-577(1977).

[25] Y C MA. The perturbed plan-wave solutions of the cubic Schrödinger equation. Studies in Applied Mathematics, 60, 43-58(1979).

[26] N N AKHMEDIEV, V I KORNEEV. Modulation instability and periodic solutions of the nonlinear Schrödinger equation. Theoretical and Mathematical Physics, 69, 1089-1093(1986).

[27] M TAJIRI, Y WATANABE. Breather solutions to the focusing nonlinear Schrödinger equation. Physical Review E, 57, 3510(1998).

[28] N V PRIYA, M SENTHILVELAN, M LAKSHMANAN. Akhmediev breathers, Ma solitons, and general breathers from rogue waves: A case study in the Manakov system. Physical Review E, 88, 022918(2013).

[29] N N AKHMEDIEV, J M SOTO-CRESPO, A ANKIEWICZ. Extreme waves that appear from nowhere: on the nature of rogue waves. Physics Letters A, 373, 2137-2145(2009).

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

[31] Yuhan WU, Chong LIU, Zhanying YANG et al. Breather interaction properties induced by self-steepening and space-time correction. Chinese Physics Letters, 37, 040501(2020).

[32] Chong LIU, N AKHMEDIEV. Super-regular breathers in nonlinear systems with self-steepening effect. Physical Review E, 100, 062201(2019).

[33] Boling GUO, Liming LING, Q P LIU. Nonlinear Schrödinger equation: generalized Darboux transformation and rogue wave solutions. Physical Review E, 85, 026607(2012).

[34] D H PEREGRINE. Water waves, nonlinear Schrödinger equations and their solutions. The ANZIAM Journal, 25, 16-43(1983).

[35] Lichen ZHAO, Liming LING, Zhanying YANG. Mechanism of Kuznetsov-Ma breathers. Physical Review E, 97, 022218(2018).

[36] Wenjuan CHE, Shaochun CHEN, Chong LIU et al. Nondegenerate Kuznetsov-Ma solitons of Manakov equations and their physical spectra. Physical Review A, 105, 043526(2022).

[37] E FERMI, P PASTA, S ULAM et al. Studies of the nonlinear problems(1955).

[38] K HAMMANI, B WETZEL, B KIBLER et al. Spectral dynamics of modulation instability described using Akhmediev breather theory. Optics Letters, 36, 2140-2142(2011).

[39] J FATOME, B KIBLER, C FINOT. High-quality optical pulse train generator based on solitons on finite background. Optics Letters, 38, 1663-1665(2013).

[40] J M DUDLEY, G GENTY, B J EGGLETON. Harnessing and control of optical rogue waves in supercontinuum generation. Optics Express, 16, 3644-3651(2008).

[41] M ERKINTALO, G GENTY, J M DUDLEY. Rogue-wave-like characteristics in femtosecond supercontinuum generation. Optics Letters, 34, 2468-2470(2009).

[42] C LECAPLAIN, P GRELU, J M SOTO-CRESPO et al. Dissipative rogue waves generated by chaotic pulse bunching in a mode-locked laser. Physical Review Letters, 108, 233901(2012).

[43] B FRISQUET, B KIBLER, P MORIN et al. Optical dark rogue wave. Scientific Reports, 6, 1-9(2016).

[44] S TOENGER, T GODIN, C BILLET et al. Emergent rogue wave structures and statistics in spontaneous modulation instability. Scientific Reports, 5, 1-8(2015).

[45] J M SOTO-CRESPO, N DEVINE, N AKHMEDIEV. Integrable turbulence and rogue waves: breathers or solitons？. Physical Review Letters, 116, 103901(2016).

[46] Liang DUAN, Chong LIU, Lichen ZHAO et al. Quantitative relations between fundamental nonlinear waves and modulation instability. Acta Physica Sinica, 69, 010501(2020).

[47] Lichen ZHAO, Liming LING. Quantitative relations between modulational instability and several well-known nonlinear excitations. Journal of The Optical Society of America B-optical Physics, 33, 850-856(2016).

[48] M ERKINTALO, G GENTY, B WETZEL et al. Akhmediev breather evolution in optical fiber for realistic initial conditions. Physics Letters A, 375, 2029-2034(2011).

[49] V ZAKHAROV, A GELASH. Freak waves as a result of modulation instability. Procedia International Union of Theoretical and Applied Mechanics, 9, 165-175(2013).

[50] F BARONIO, M CONFORTI, A DEGASPERIS et al. Vector rogue waves and baseband modulation instability in the defocusing regime. Physical Review Letters, 113, 034101(2014).

[51] F BARONIO, S CHEN, P GRELU et al. Baseband modulation instability as the origin of rogue waves. Physical Review A, 91, 033804(2015).

[52] Peng GAO, Lichen ZHAO, Zhanying YANG et al. High-order rogue waves excited from multi-Gaussian perturbations on a continuous wave. Optics Letters, 45, 2399-2402(2020).

[53] Gang XU, A GELASH, A CHABCHOUB et al. Breather wave molecules. Physical Review Letters, 122, 084101(2019).

[54] B KIBLER, A CHABCHOUB, A GELASH et al. Superregular breathers in optics and hydrodynamics: omnipresent modulation instability beyond simple periodicity. Physical Review X, 5, 041026(2015).

[55] Gang XU, A GELASH, A CHABCHOUB et al. Ghost interaction of breathers. Frontiers in Physics, 8, 571(2020).

[56] N AKHMEDIEV, J M SOTO-CRESPO, A ANKIEWICZ. Extreme waves that appear from nowhere: on the nature of rogue waves. Physics Letters A, 373, 2137-2145(2009).

[57] Chong LIU, Zhanying YANG, Wenli YANG. Growth rate of modulation instability driven by superregular breathers. Chaos: An Interdisciplinary Journal of Nonlinear Science, 28, 083110(2018).

[58] A M PEREGO. Exact superregular breather solutions to the generalized nonlinear Schrödinger equation with nonhomogeneous coefficients and dissipative effects. Optics Letters, 45, 3913-3916(2020).

[59] Heyuan TIAN, Bo TIAN, Yuqiang YUAN et al. Superregular solutions for a coupled nonlinear Schrödinger system in a two-mode nonlinear fiber. Physica Scripta, 96, 045213(2021).