Mode-locked fiber laser based on a small-period long-period fiber grating inscribed by femtosecond laser

Qianying Li; Peiyun Cheng; Rong Zhao; Jintao Cai; Ming Shen; Xuewen Shu

doi:10.1364/OL.487826

Optics Letters
Vol. 48,
Issue 9,
pp. 2241-2244
(2023)
•https://doi.org/10.1364/OL.487826

Mode-locked fiber laser based on a small-period long-period fiber grating inscribed by femtosecond laser

Qianying Li, Peiyun Cheng, Rong Zhao, Jintao Cai, Ming Shen, and Xuewen Shu

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Qianying Li, Peiyun Cheng, Rong Zhao, Jintao Cai, Ming Shen, and Xuewen Shu, "Mode-locked fiber laser based on a small-period long-period fiber grating inscribed by femtosecond laser," Opt. Lett. 48, 2241-2244 (2023)

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Abstract

We demonstrate stable mode-locked pulses in an erbium-doped fiber laser (EDFL) using a femtosecond laser-inscribed small-period long-period grating (SP-LPG). The SP-LPG has a period of 25 µm and a length of 2.5 mm. The polarization dependent loss (PDL) of the SP-LPG reaches 20 dB at the wavelength of 1556 nm and 25 dB at the wavelength of 1607 nm, which is sufficient to trigger the mode-locking mechanism. In addition, a mode-locked fiber laser (MLFL) based on the SP-LPG has been demonstrated to generate 1.58-ps pulses at 1577 nm with a bandwidth of 4 nm and a repetition rate of 1.54 MHz. The signal-to-noise ratio (SNR) of 50 dB shows the high stability of this system. This work indicates various potential applications of the SP-LPG in ultra-fast laser technologies due to its simple fabrication, compact structure, and high damage threshold.

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Data underlying the results presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request.

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Abstract

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Optics Letters