Behavioral similarity of dissipative solitons in an ultrafast fiber laser
Ying Yu, Cihang Kong, Bowen Li, Jiqiang Kang, Yu-Xuan Ren, Zhi-Chao, Luo, Kenneth K. Y. Wong

TL;DR
This paper reveals that bidirectional dissipative solitons in ultrafast fiber lasers exhibit similar spectral and temporal behaviors under common gain and loss modulation, enabling precise control of soliton patterns.
Contribution
It uncovers a new behavioral similarity of dissipative solitons in a net-normal-dispersion fiber laser, facilitating accurate pattern design through loss modulation.
Findings
Bidirectional dissipative solitons show similar spectral and temporal characteristics.
Loss modulation can be used to accurately design soliton patterns.
Multi-soliton patterns can be precisely manipulated in the laser system.
Abstract
Dissipative solitons are non-dispersive localized waves that exhibit intriguing dynamics. In optical systems, the discovery of new soliton dynamics and how to accurately manipulate dissipative solitons are still largely unexplored and challenging in the ultrafast fiber laser community. Herein, we unveil a new type of dissipative soliton behavior in a net-normal-dispersion bidirectional ultrafast fiber laser. That is, the bidirectional dissipative solitons will always reveal similar spectral and temporal characteristics through common gain and loss modulation, even if the transient instability is involved. The behavioral similarity enables us to accurately design the soliton patterns by introducing seed pulses through loss modulation. As a proof-of-concept application, the precise and flexible manipulation of multi-soliton patterns is demonstrated. These findings will shed new insights…
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