Generation of Bright–Dark Pulse Pairs in the Er-Doped Mode-Locked Fiber Laser Based on Doped Fiber Saturable Absorber
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Published:2024-06-03
Issue:6
Volume:11
Page:534
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ISSN:2304-6732
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Container-title:Photonics
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language:en
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Short-container-title:Photonics
Author:
Qi Yaoyao123ORCID, Yu Qixing12, Sun Wei4, Gao Yaqing12, Zhang Yu12, Bai Zhenxu12ORCID, Ding Jie12, Yan Bingzheng12, Wang Yulei12, Lu Zhiwei12, Yan Dapeng3
Affiliation:
1. Center for Advanced Laser Technology, School of Electronics and Information Engineering, Hebei University of Technology, Tianjin 300401, China 2. Hebei Key Laboratory of Advanced Laser Technology and Equipment, Tianjin 300401, China 3. Wuhan Raycus Fiber Laser Technologies Co., Ltd., Wuhan 430223, China 4. Jiangsu Alpha Optic-Electric Technology Co., Ltd., Suzhou 215200, China
Abstract
This study reports new types of passive mode-locked Er-doped fiber laser (EDFL) based on a segment of doped fiber saturable absorber (DFSA) with Tm/Ho-doped fiber (THDF), Yb-doped fiber (YDF), and Er-doped fiber (EDF). By employing THDF-SA, a bright pulse sequence with a fundamental repetition rate of 17.86 MHz was obtained. In addition, various mode-locked output states, including dark pulses, dark–bright pulse pairs, bright–dark pulse pairs, and second-harmonic pulses, were obtained through polarization modulation and gain modulation, and the orthogonality of dark–bright pulses in both polarization directions was verified. Furthermore, using EDF-SA and YDF-SA, dark pulses and dark–bright pulses were obtained. A comparison of the three experiments revealed that THDF-SA effectively reduces the mode-locked threshold and improves the average output power. Compared with bright pulses, dark pulses offer several advantages such as resisting noise, increasing propagation speed, and suppressing nonlinear scattering (such as pulse-intrinsic Raman scattering); thus, the EDFL can find broad application in long-distance transmission, precision measurement, and other fields.
Funder
National key research and development program Key projects of Jiangsu Province’s key research and development program National Natural Science Foundation of China Natural Science Foundation of Hebei Province China Postdoctoral Science Foundation
Reference34 articles.
1. Refractive-index-sensing optical comb based on photonic radio-frequency conversion with intracavity multi-mode interference fiber sensor;Oe;Opt. Express,2018 2. Nonlinear optical response and application of WS2 saturable absorber;Li;Laser Phys. Lett.,2018 3. Femtosecond lasers in biology: Nanoscale surgery with ultrafast optics;Gabel;Contemp. Phys.,2008 4. Three-dimensional micromachining of glass using femtosecond laser for lab-on-a-chip device manufacture;Sugioka;Appl. Phys. A,2005 5. Kehayas, E., Stampoulidis, L., Henderson, P., Robertson, A., Van Dijk, F., Achouche, M., Le Kernec, A., Sotom, M., Schuberts, F., and Brabant, T. (2014, January 6–10). The European project HIPPO high-power photonics for satellite laser communications and on-board optical pro-cessing. Proceedings of the International Conference on Space Optics—ICSO 2014, Tenerife, Spain.
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