All-fiber mode-locked gigahertz femtosecond laser at 1610 nm using a self-developed long-wavelength gain fiber

Yongbao Xiao; Ludong Kuang; Xu Hu; Yichen Ye; Weichao Wang; Weichao Wang; Wei Lin; Yao Ji; Jie Wan; Changsheng Yang; Shanhui Xu; Xiaoming Wei; Xiaoming Wei; Qinyuan Zhang; Qinyuan Zhang

doi:10.1364/OL.451374

Optics Letters
Vol. 47,
Issue 4,
pp. 981-984
(2022)
•https://doi.org/10.1364/OL.451374

All-fiber mode-locked gigahertz femtosecond laser at 1610 nm using a self-developed long-wavelength gain fiber

Yongbao Xiao, Ludong Kuang, Xu Hu, Yichen Ye, Weichao Wang, Wei Lin, Yao Ji, Jie Wan, Changsheng Yang, Shanhui Xu, Xiaoming Wei, and Qinyuan Zhang

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Yongbao Xiao, Ludong Kuang, Xu Hu, Yichen Ye, Weichao Wang, Wei Lin, Yao Ji, Jie Wan, Changsheng Yang, Shanhui Xu, Xiaoming Wei, and Qinyuan Zhang, "All-fiber mode-locked gigahertz femtosecond laser at 1610 nm using a self-developed long-wavelength gain fiber," Opt. Lett. 47, 981-984 (2022)

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Abstract

We report a compact all-fiber passively mode-locked ultrafast laser with a fundamental repetition rate of 1.6 GHz that uses a self-developed long-wavelength active fiber, i.e., a fluoro-sulfo-phosphate-based Er³⁺/Yb³⁺ co-doped fiber (only 6.2 cm in length). This active fiber can provide a net gain coefficient of 0.6 dB/cm at 1610 nm. The high-repetition-rate all-fiber mode-locked laser operates at a low pump power of only approximately 90 mW. The mode-locked pulse train has a period of 625 ps and a 3 dB bandwidth of 7.0 nm, which can support a transform-limited pulse width of 390 fs.

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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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Gain Fiber	Length of Gain Fiber (cm)	Repetition Rate (GHz)	Central Wavelength (nm)	Pump Threshold (mW)
Silica-EDF [9]	320	0.036	1605	894
Silica-EDF (Liekki Er80) [13]	9.2	1.0	1573	200
Silica-EDF (Liekki Er80) [12]	10.0	1.0	1609	60
FSP-EYDF (Present Work)	6.2	1.6	1610	90

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Optics Letters