Highly stable soliton and bound soliton generation from a fiber laser mode-locked by VSe2 nanosheets | Zendy

Ning Li | Zendy; Jing Huang | Zendy; Lin Du | Zendy; Lingling Yang | Zendy; Jie Li | Zendy; Dongyang Liu | Zendy; Lili Miao | Zendy; Chujun Zhao | Zendy

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Highly stable soliton and bound soliton generation from a fiber laser mode-locked by VSe₂ nanosheets

Author(s) -

Ning Li,

Jing Huang,

Lin Du,

Lingling Yang,

Jie Li,

Dongyang Liu,

Lili Miao,

Chujun Zhao

Publication year - 2022

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.452771

Subject(s) - saturable absorption , materials science , soliton , fiber laser , laser , ultrashort pulse , optics , mode locking , optical fiber , dissipative soliton , optoelectronics , nonlinear system , physics , quantum mechanics

We demonstrate the highly stable soliton generation from a fiber laser mode-locked by the VSe 2 nanosheets experimentally. The VSe 2 nanosheets prepared via the liquid phase exfoliation method exhibit ultrafast relaxation time and excellent nonlinear optical behavior with saturation intensity and modulation depth of 14.28 MW/cm 2 and 19.11%, respectively. A highly stable mode-locked Er 3+ -doped fiber laser with pulse duration of 714 fs and signal-to-noise ratio of 78.44 dB has been delivered successfully based on the VSe 2 nanosheets saturable absorber. In addition, the transition from the conventional soliton to bound-state soliton has been observed experimentally. Our results reveal that VSe 2 nanosheets possess excellent nonlinear optical performance and can act as a robust optical platform for versatile optical applications.

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