Development of a Mode-Locked Fiber Laser Utilizing a Niobium Diselenide Saturable Absorber

Weiqin Guo; Ling Zhang; Xiaosheng Xiao; Xingxing Li; Zhigang Yin; Hui Ning; Xin Zhang; Xingwang Zhang

doi:10.3390/photonics10060610

Photonics (May 2023)

Development of a Mode-Locked Fiber Laser Utilizing a Niobium Diselenide Saturable Absorber

Weiqin Guo,
Ling Zhang,
Xiaosheng Xiao,
Xingxing Li,
Zhigang Yin,
Hui Ning,
Xin Zhang,
Xingwang Zhang

Affiliations

Weiqin Guo: Joint Lab of Digital Optical Chip, Wuyi University, Jiangmen 529020, China
Ling Zhang: Key Lab of Semiconductor Materials Science, Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China
Xiaosheng Xiao: School of Electronic Engineering, Beijing University of Posts and Telecommunications, Beijing 100876, China
Xingxing Li: Joint Lab of Digital Optical Chip, Wuyi University, Jiangmen 529020, China
Zhigang Yin: Key Lab of Semiconductor Materials Science, Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China
Hui Ning: Joint Lab of Digital Optical Chip, Wuyi University, Jiangmen 529020, China
Xin Zhang: Joint Lab of Digital Optical Chip, Wuyi University, Jiangmen 529020, China
Xingwang Zhang: Key Lab of Semiconductor Materials Science, Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China

DOI: https://doi.org/10.3390/photonics10060610
Journal volume & issue: Vol. 10, no. 6
p. 610

Abstract

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The saturable absorber of niobium diselenide (NbSe2), with a wide working bandwidth and excellent nonlinear optical response, was prepared using liquid-phase exfoliation. Its saturation intensity and modulation depth were 5.35 MW/cm2 and 6.3%, respectively. Stable mode-locking with a center wavelength of 1558.7 nm of an erbium-doped fiber laser based on a NbSe2 saturable absorber was successfully achieved. The maximum average output power of the mode-locked laser was 6.93 mW, with a pulse width of 1.3 ps and a repetition rate of 25.31 MHz at a pump power of 550 mW. The results show that NbSe2 is a promising photoelectric modulation material owing to its excellent nonlinear optical properties.

Published in Photonics

ISSN: 2304-6732 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Engineering (General). Civil engineering (General): Applied optics. Photonics
Website: http://www.mdpi.com/journal/photonics

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