Single-Frequency Ring Fiber Laser with Random Distributed Feedback Provided by Artificial Rayleigh Scattering

被引:1
|
作者
Skvortsov, Mikhail I. [1 ]
Proskurina, Kseniya V. [1 ]
Golikov, Evgeniy V. [1 ]
Dostovalov, Alexander V. [1 ]
Wolf, Alexey A. [1 ]
Munkueva, Zhibzema E. [1 ,2 ]
Abdullina, Sofia R. [1 ]
Terentyev, Vadim S. [1 ]
Egorova, Olga N. [3 ]
Semjonov, Sergey L. [4 ]
Babin, Sergey A. [1 ]
机构
[1] Russian Acad Sci, Inst Automat & Electrometry, Siberian Branch, 1 Ac Koptyug Ave, Novosibirsk 630090, Russia
[2] Novosibirsk State Univ, Dept Phys, Pirogova 2, Novosibirsk 630090, Russia
[3] Russian Acad Sci, Prokhorov Gen Phys Inst, 38 Vavilov St, Moscow 119991, Russia
[4] Russian Acad Sci, Prokhorov Gen Phys Inst, Dianov Fiber Opt Res Ctr, 38 Vavilov St, Moscow 119991, Russia
来源
PHOTONICS | 2024年 / 11卷 / 02期
关键词
single-frequency fiber laser; random distributed feedback; femtosecond refractive index modification; PHOSPHATE-CORE; GLASS;
D O I
10.3390/photonics11020103
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
Femtosecond (fs) laser inscription technology allows for the production of in-fiber disordered structures with an enhanced level of Rayleigh backscattering with relatively few induced losses. These properties enable the application of these structures as reflectors in fiber lasers. In this study, a narrow-linewidth erbium fiber laser with random distributed feedback provided by a fs-induced random structure in a ring cavity configuration was developed. A single-frequency regime was observed over the entire lasing power range. At a maximum output power of 7.8 mW, the linewidth did not exceed 0.75 kHz.
引用
收藏
页数:9
相关论文
共 50 条
  • [41] Efficient Raman fiber laser based on random Rayleigh distributed feedback with record high power
    Zhang, H.
    Zhou, P.
    Xiao, H.
    Xu, X.
    LASER PHYSICS LETTERS, 2014, 11 (07)
  • [42] Wavelength-switchable single-frequency erbium-doped fiber ring laser
    Liegeois, F
    Hernandez, Y
    Kinet, D
    Peigné, G
    Giannone, D
    IEEE PHOTONICS TECHNOLOGY LETTERS, 2005, 17 (12) : 2544 - 2546
  • [43] Effects of Rayleigh backscattering on distributed feedback fiber laser sensors
    Xu, Tuanwei
    Ren, Meizhen
    He, Jun
    Fang, Gaosheng
    Li, Fang
    Liu, Yuliang
    INTERNATIONAL SYMPOSIUM ON OPTOELECTRONIC TECHNOLOGY AND APPLICATION 2014: LASER AND OPTICAL MEASUREMENT TECHNOLOGY; AND FIBER OPTIC SENSORS, 2014, 9297
  • [44] Non-polarization-maintaining fiber based single-polarization, single-frequency erbium-doped distributed-feedback laser
    Sun, Wenjuan
    Yu, Yanjiang
    Shi, Jindan
    Feng, Xian
    2021 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO), 2021,
  • [45] A single-frequency and single-polarization fiber ring laser using a 5-GHz fiber Bragg grating
    Inaba, H
    Akimoto, Y
    Tamura, K
    Yoshida, E
    Komukai, T
    Nakazawa, M
    ELECTRONICS AND COMMUNICATIONS IN JAPAN PART II-ELECTRONICS, 1999, 82 (05): : 21 - 29
  • [46] 10-A CONTINUOUS PRESSURE TUNING OF A SINGLE-FREQUENCY DISTRIBUTED FEEDBACK DYE-LASER
    BOR, Z
    OPTICS COMMUNICATIONS, 1979, 29 (03) : 329 - 330
  • [47] Ultrafast Raman fiber Laser with Random Distributed Feedback
    Pan, Weiwei
    Zhang, Lei
    Jiang, Huawei
    Yang, Xuezong
    Cui, Shuzhen
    Feng, Yan
    LASER & PHOTONICS REVIEWS, 2018, 12 (04)
  • [48] Random distributed feedback fiber laser pumped by an ytterbium doped fiber laser
    Chen, Lulu
    Ding, Yingchun
    OPTIK, 2014, 125 (14): : 3663 - 3665
  • [49] The rising power of random distributed feedback fiber laser
    Zhou, Pu
    Ye, Jun
    Xu, Jiangming
    Zhang, Hanwei
    Huang, Long
    Wu, Jian
    Xiao, Hu
    Leng, Jinyong
    2017 INTERNATIONAL CONFERENCE ON OPTICAL INSTRUMENTS AND TECHNOLOGY: ADVANCED LASER TECHNOLOGY AND APPLICATIONS, 2017, 10619
  • [50] Random distributed feedback fiber laser at 2.1 μm
    Jin, Xiaoxi
    Lou, Zhaokai
    Zhang, Hanwei
    Xu, Jiangming
    Zhou, Pu
    Liu, Zejin
    OPTICS LETTERS, 2016, 41 (21) : 4923 - 4926
12345