Frontiers of Optoelectronics (Jan 2024)

Transient breathing dynamics during extinction of dissipative solitons in mode-locked fiber lasers

  • Zichuan Yuan,
  • Si Luo,
  • Ke Dai,
  • Xiankun Yao,
  • Chenning Tao,
  • Qiang Ling,
  • Yusheng Zhang,
  • Zuguang Guan,
  • Daru Chen,
  • Yudong Cui

DOI
https://doi.org/10.1007/s12200-024-00106-6
Journal volume & issue
Vol. 17, no. 1
pp. 1 – 11

Abstract

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Abstract The utilization of the dispersive Fourier transformation approach has enabled comprehensive observation of the birth process of dissipative solitons in fiber lasers. However, there is still a dearth of deep understanding regarding the extinction process of dissipative solitons. In this study, we have utilized a combination of experimental and numerical techniques to thoroughly examine the breathing dynamics of dissipative solitons during the extinction process in an Er-doped mode-locked fiber laser. The results demonstrate that the transient breathing dynamics have a substantial impact on the extinction stage of both steady-state and breathing-state dissipative solitons. The duration of transient breathing exhibits a high degree of sensitivity to variations in pump power. Numerical simulations are utilized to produce analogous breathing dynamics within the framework of a model that integrates equations characterizing the population inversion in a mode-locked laser. These results corroborate the role of Q-switching instability in the onset of breathing oscillations. Furthermore, these findings offer new possibilities for the advancement of various operational frameworks for ultrafast lasers. Graphical abstract

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