基于棒状光子晶体光纤的35W重复频率可调皮秒掺镱光纤激光器

王勇; 袁帅; 沈嘉伟; 司璐; 陈嘉宁; 曾和平

光学技术, 2022, 48 (4): 421, 网络出版: 2023-01-20

基于棒状光子晶体光纤的35W重复频率可调皮秒掺镱光纤激光器

35W Yb-doped fiber laser with adjustable repetition rate based on rod-type photonic crystal fiber

论文大纲

王勇袁帅沈嘉伟司璐陈嘉宁曾和平

作者单位

上海理工大学光电信息与计算机工程学院, 上海 200093

光纤光学超短脉冲高功率激光光子晶体光纤棒状光纤 optical fiber1 ultrashort pulse2 high power laser3 photonic crystal fiber4 rod fiber5

摘要

针对激光切片技术缺少重频可调激光光源, 设计了一种脉冲平均功率35.4W, 脉宽12ps, 重复频率300kHz~1MHz可调的高功率掺镱光纤皮秒脉冲激光器。激光器采用全光纤振荡器及预放大系统, 配合基于棒状光子晶体光纤的主放大系统, 并通过在级联放大中加入声光调制器（AOM）调控重复频率, 从而实现重复频率可调的高功率皮秒脉冲输出。激光器振荡器及预放大部分的全光纤设计, 相较于空间耦合放大具有光路结构简单、环境稳定性高等特点, 有望推动高能量飞秒光纤激光工业化进程, 提升其在复杂使用环境的适应性。

Abstract

A Yb-doped picosecond fiber laser with 35.4W for average power, 12ps for pulse duration, and 300kHz~1MHz for repetition rate is designed based on cascade amplification. The oscillator and the pre-amplification system are comprized of all fiber. Rod-type photonic crystal fiber is used as the gain medium of the main amplifier. The output repetition rate can be adjust from 300kHz to 1MHz by an Acousto-Optic Modulator (AOM). The all-fiber design of the oscillator and the pre-amplifiers has the characteristics of simple optical path structure and high environmental stability, which is expected to promote the industrialization process of high-energy femtosecond fiber laser and improve its adaptability under complex environment.

参考文献

[1] 肖威, 林晓辉. 超短脉冲激光烧蚀固体材料的库仑爆炸:微观机理研究［D］. 南京:东南大学,2020:1-15.

[2] 翟兆阳, 梅雪松, 王文君, 等. 碳化硅陶瓷基复合材料激光刻蚀技术研究进展［J］. 中国激光,2020,47(6):0600002.

[3] Zhao Jian, Li Wenxue, Wang Chao, et al. Pre-chirping management of a self-similar Yb-fiber amplifier towards 80W average power with sub 40fs pulse generation［J］. Opt. Exp.,2014,22(26):32214.

[4] Liu Yang, Li Wenxue, Luo Daping, et al. Generation of 33fs 93.5W average power pulses from a third-order dispersion managed self-similar fiber amplifier［J］. Opt. Exp.,2016,24(10):10939.

[5] Liu W, Schimpf D. N., Eidam T, et al. Pre-chirp managed nonlinear amplification in fibers delivering 100W, 60fs pulses［J］. Opt. Lett.,2015,40(2):151-154.

[6] Song Huanyu, Liu Bowen, Chen Wei, et al. Femtosecond laser pulse generation with self-similar amplification of picosecond laser pulses［J］. Opt. Exp.,2018,26(20):26411.

[7] Fermann M E, Kruglov V I, Thomsen B C, et al. Self-similar propagation and amplification of parabolic pulses in optical fibers［J］. Phys. Rev. Lett.,2000,84(26):6010-6013.

[8] F Rser, T Eidam, J Rothhardt, et al. Millijoule pulse energy high repetition rate femtosecond fiber chirped-pulse amplification system［J］. Opt. Exp.,2007,32(24):3495-3497.

[9] 李峰, 杨直, 赵卫, 等. 百微焦级飞秒光纤激光放大系统［J］. 中国激光,2015,42(12):1202005.

[10] 陆云峰, 王毅, 刘斌, 等. 1.5 MW 峰值功率光纤-固体混合放大MOPA 激光系统［J］. 中国激光,2015,42(2):61-66.

[11] 刘伟, 金东臣, 孙若愚, 等. 基于光纤可饱和吸收体的1993nm 纳秒脉冲掺铥全光纤双腔激光器［J］. 中国激光,2017,47(8):0801006.

[12] 祖嘉琦, 武帅, 张海涛, 等. 光纤饱和吸收体掺镱全光纤化激光器［J］. 红外与激光工程,2020,49(6):IRLA20190382.

[13] Li H J, Bu X B, Shi Y H, et al. High-power chirped pulse amplification based on Yb-doped rod-type PCF and nonlinear amplifying loop mirror oscillator［J］. SPIE,2020.1143:114370.

[14] 王锋, 李敏, 曾和平, 等. 全光纤高能量飞秒脉冲激光放大系统［J］. 光学技术,2021,47(3):10.13741.

王勇, 袁帅, 沈嘉伟, 司璐, 陈嘉宁, 曾和平. 基于棒状光子晶体光纤的35W重复频率可调皮秒掺镱光纤激光器[J]. 光学技术, 2022, 48(4): 421. WANG Yong, YUAN Shuai, SHEN Jiawei, SI Lu, CHEN Jianing, ZENG Heping. 35W Yb-doped fiber laser with adjustable repetition rate based on rod-type photonic crystal fiber[J]. Optical Technique, 2022, 48(4): 421.

基于棒状光子晶体光纤的35W重复频率可调皮秒掺镱光纤激光器

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