Complex Multi-Pulse Interactions in Harmonic Mode-Locked Fiber Laser Based on Acousto-Optic Effect

Xintong Zhang; Xiaocong Wang; Qi Huang; Zhiyuan Huang; Zhuozhao Luo; Gengji Zhou; Xin Jiang; Yuxin Leng; Meng Pang

doi:10.3788/CJL202148.1901006

[1] Agrawal G P. Nonlinear fiber optics[M]. 3rd ed(2001).

[2] Stegeman G I, Segev M. Optical spatial solitons and their interactions: universality and diversity[J]. Science, 286, 1518-1523(1999).

[3] Grelu P, Akhmediev N. Dissipative solitons for mode-locked lasers[J]. Nature Photonics, 6, 84-92(2012).

[4] Zavyalov A, Iliew R, Egorov O et al. Discrete family of dissipative soliton pairs in mode-locked fiber lasers[J]. Physical Review A, 79, 053841(2009).

[5] Zavyalov A, Iliew R, Egorov O et al. Dissipative soliton molecules with independently evolving or flipping phases in mode-locked fiber lasers[J]. Physical Review A, 80, 043829(2009).

[6] Wang Z Q, Nithyanandan K, Coillet A et al. Optical soliton molecular complexes in a passively mode-locked fibre laser[J]. Nature Communications, 10, 830(2019).

[7] Grapinet M, Grelu P. Vibrating soliton pairs in a mode-locked laser cavity[J]. Optics Letters, 31, 2115-2117(2006).

[8] Haus H A, Wong W S. Solitons in optical communications[J]. Reviews of Modern Physics, 68, 423-444(1996).

[9] Amrani F, Haboucha A, Salhi M et al. Passively mode-locked erbium-doped double-clad fiber laser operating at the 322nd harmonic[J]. Optics Letters, 34, 2120-2122(2009).

[10] Zhao L M, Tang D Y, Liu D. Ultrahigh-repetition-rate bound-soliton fiber laser[J]. Applied Physics B, 99, 441-447(2010).

[11] Herink G, Kurtz F, Jalali B et al. Real-time spectral interferometry probes the internal dynamics of femtosecond soliton molecules[J]. Science, 356, 50-54(2017).

[12] Krupa K, Nithyanandan K, Andral U et al. Real-time observation of internal motion within ultrafast dissipative optical soliton molecules[J]. Physical Review Letters, 118, 243901(2017).

[13] Jang J K, Erkintalo M, Murdoch S G et al. Ultraweak long-range interactions of solitons observed over astronomical distances[J]. Nature Photonics, 7, 657-663(2013).

[14] Kodama Y, Wabnitz S, Romagnoli M. Soliton stability and interactions in fibre lasers[J]. Electronics Letters, 28, 1981-1983(1992).

[15] Roy V, Olivier M, Babin F et al. Dynamics of periodic pulse collisions in a strongly dissipative-dispersive system[J]. Physical Review Letters, 94, 203903(2005).

[16] Weng W L, Bouchand R, Lucas E et al. Polychromatic Cherenkov radiation induced group velocity symmetry breaking in counterpropagating dissipative Kerr solitons[J]. Physical Review Letters, 123, 253902(2019).

[17] Pang M, Jiang X, He W et al. Stable subpicosecond soliton fiber laser passively mode-locked by gigahertz acoustic resonance in photonic crystal fiber core[J]. Optica, 2, 339-342(2015).

[18] He W, Pang M, Menyuk C R et al. Sub-100-fs 1.87 GHz mode-locked fiber laser using stretched-soliton effects[J]. Optica, 3, 1366(2016).

[19] Pang M, He W, Jiang X et al. All-optical bit storage in a fibre laser by optomechanically bound states of solitons[J]. Nature Photonics, 10, 454-458(2016).

[20] He W, Pang M, Yeh D H et al. Formation of optical supramolecular structures in a fibre laser by tailoring long-range soliton interactions[J]. Nature Communications, 10, 5756(2019).

[21] He W, Pang M, Yeh D H et al. Synthesis and dissociation of soliton molecules in parallel optical-soliton reactors[J]. Light, Science & Applications, 10, 120(2021).

[22] Kang M S, Nazarkin A, Brenn A et al. Tightly trapped acoustic phonons in photonic crystal fibres as highly nonlinear artificial Raman oscillators[J]. Nature Physics, 5, 276-280(2009).

[23] Goda K, Jalali B. Dispersive Fourier transformation for fast continuous single-shot measurements[J]. Nature Photonics, 7, 102-112(2013).

[25] Sala K L, Kenney-Wallace G A, Hall G E. CW autocorrelation measurements of picosecond laser pulses[J]. IEEE Journal of Quantum Electronics, 16, 990-996(1980).

[26] Kim J, Song Y J. Ultralow-noise mode-locked fiber lasers and frequency combs: principles, status, and applications[J]. Advances in Optics and Photonics, 8, 465-540(2016).

[27] Song Y, Jung K, Kim J. Impact of pulse dynamics on timing jitter in mode-locked fiber lasers[J]. Optics Letters, 36, 1761-1763(2011).

[28] Kelly S M J. Characteristic sideband instability of periodically amplified average soliton[J]. Electronics Letters, 28, 806-807(1992).

[29] Gordon J P. Dispersive perturbations of solitons of the nonlinear Schrödinger equation[J]. Journal of the Optical Society of America B, 9, 91-97(1992).

[30] Wang Y T, Fu S N, Zhang C et al. Soliton distillation of pulses from a fiber laser[J]. Journal of Lightwave Technology, 39, 2542-2546(2021).