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Study of Tm Doped Silica Fiber Lasers Pumped by LD

Received: 3 November 2022     Accepted: 8 December 2022     Published: 15 December 2022
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Abstract

Fiber laser has many advantages. First of all, fiber lasers are relatively simple in structure, with fewer components than traditional solid state lasers, smaller volume, and easy to integrate into a small area. In addition, the energy conversion efficiency of fiber lasers is very high. The gain medium is rare earth doped glass, which is rich and cheap. Rare earth doped glass has very high beam quality and is widely used in industry, agriculture, laser communication, atmospheric detection, remote sensing, laser radar, medical surgery and other fields. Now fiber laser has become the mainstream of laser technology development and the main technology of laser industry application. Tm doped silica fiber lasers have been studied. The gain spectrum range of Tm ions is very wide, and its emission wavelength can cover 1800nm-2100nm. This range is just near the peak of the absorption spectrum of water molecules, which has great application value. This paper analyzes the structural characteristics of Tm doped fiber lasers, designs a new type of Tm doped silica fiber lasers, gives the equation of laser pulse, and then simulates the laser to obtain the mode locked pulse of the laser. The simulation results show that the designed Tm doped silica fiber lasers are feasible.

Published in Journal of Electrical and Electronic Engineering (Volume 10, Issue 6)
DOI 10.11648/j.jeee.20221006.14
Page(s) 234-238
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2022. Published by Science Publishing Group

Keywords

Tm Doped Fiber, Pulse Laser, Fiber Laser, Mode Locking, Structure

References
[1] Heuermann, T. and Wang, ZY. (2022). Ultrafast Tm-doped fiber laser system delivering 1.65-mJ, sub-100-fs pulses at a 100-kHz repetition rate. Optics Letters, 47 (12), pp. 3095-3098.
[2] Huang, ST. and Zheng, SK. (2022). Tunable mode-locked Tm-doped fiber laser based upon cross-phase modulation. Optics Express, 30 (18), pp. 32256-32266.
[3] Hao, Q. and Wang, QG. (2022). Diode-pumped SESAM mode-locked Tm: Sc2SiO5 laser. Optics letters, 47 (17), pp. 4495-4498.
[4] Dupont, H. and Guillemot, L. (2022). Dual-wavelength-pumping of mid-infrared Tm: YLF laser at 2.3 mu m: demonstration of pump seeding and recycling processes. Optics Express, 30 (18), pp. 32141-32150.
[5] Lin, ZW. and Chen, JX. (2022). 1.7 um figure-9 Tm-doped ultrafast fiber laser. Optics Express, 30 (18), pp. 32347-32354.
[6] Wang, JL. and Dong, JF. (2022). 63 W wing-pumped Tm: YAG single-crystal fiber laser. Optics Express, 30 (16), pp. 29015-29021.
[7] Zhang, N. and Liu, SD. (2022). SESAM mode-locked Tm: Y2O3 ceramic laser. Optics Express, 30 (16), pp. 29531-29538.
[8] Zhang, L. and Sheng, Q. (2022). Single-frequency Tm-doped fiber laser with 215 mW at 2.05 um based on a Tm/Ho-codoped fiber saturable absorber. Optics Letters, 47 (15), pp. 3964-3967.
[9] Ren, B. and Li, C. (2022). Stable noise-like pulse generation from a NALM-based all-PM Tm-doped fiber laser. Optics Express, 30 (15), pp. 26464-26471.
[10] Cai, EL. and Kong, XZ. (2022). Nickel-vanadium layered double hydroxide for a mid-infrared 2 mu m Tm: YAG ceramic ultrafast laser. Applied Optics, 61 (20), pp. 6057-6061.
[11] Mi, SY. and Wei, DS. (2022). 113 W Ho: YLF oscillator with good beam quality efficiently pumped by a Tm: YAP laser. Applied Optics, 61 (19), pp. 5755-5759.
[12] Ponarina, MV. and Okhrimchuk, AG. (2022). Waveguide Tm: YAP Laser with a Pulse Repetition Rate of 8 GHz. Bulletin of The Lebedev Physics Institute, 49 (7), pp. 229-234.
[13] Zhang, L. and Zhang, JX. (2022). Intracavity Tandemly-Pumped and Gain-Switched Tm-doped Fiber Laser at 1.7 um. JOURNAL OF LIGHTWAVE TECHNOLOGY, 40 (13), pp. 4373-4378.
[14] Zhang, N. and Wang, ZX. (2022). Watt-level femtosecond Tm-doped "mixed" sesquioxide ceramic laser in-band pumped by a Raman fiber laser at 1627 nm. Optics Express, 30 (13), pp. 23978-23985.
[15] Rim Wi-Song, Kim Kwang-Hyon, An Jong-Kwan. (2022). Dielectric slotted nanodisk laser with ultralow pump threshold by anapole excitation. Applied Physics B: Lasers & Optics, Vol. 126 Issue 7, pp. 1-5.
[16] Yarunova E. A.; Krents A. A.; Molevich N. E. (2021). Spatiotemporal Dynamics of Broad-Area Lasers with the Pump Modulation and Injection of External Optical Radiation. Radiophysics & Quantum Electronics, Vol. 64 Issue 4, pp. 290-299.
[17] Satoh D, Shibuya T, Terasawa E, Moriai Y, Ogawa H, Tanaka M, Kobayashi Y, Kuroda R. (2020). Ultrafast pump-probe microscopic imaging of femtosecond laser-induced melting and ablation in single-crystalline silicon carbide. Applied Physics A: Materials Science & Processing, Vol. 126 Issue 10, pp. 1-8.
Cite This Article
  • APA Style

    Ning Zhang, Yansong Yang, Xiaodan Chen. (2022). Study of Tm Doped Silica Fiber Lasers Pumped by LD. Journal of Electrical and Electronic Engineering, 10(6), 234-238. https://doi.org/10.11648/j.jeee.20221006.14

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    ACS Style

    Ning Zhang; Yansong Yang; Xiaodan Chen. Study of Tm Doped Silica Fiber Lasers Pumped by LD. J. Electr. Electron. Eng. 2022, 10(6), 234-238. doi: 10.11648/j.jeee.20221006.14

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    AMA Style

    Ning Zhang, Yansong Yang, Xiaodan Chen. Study of Tm Doped Silica Fiber Lasers Pumped by LD. J Electr Electron Eng. 2022;10(6):234-238. doi: 10.11648/j.jeee.20221006.14

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  • @article{10.11648/j.jeee.20221006.14,
      author = {Ning Zhang and Yansong Yang and Xiaodan Chen},
      title = {Study of Tm Doped Silica Fiber Lasers Pumped by LD},
      journal = {Journal of Electrical and Electronic Engineering},
      volume = {10},
      number = {6},
      pages = {234-238},
      doi = {10.11648/j.jeee.20221006.14},
      url = {https://doi.org/10.11648/j.jeee.20221006.14},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.jeee.20221006.14},
      abstract = {Fiber laser has many advantages. First of all, fiber lasers are relatively simple in structure, with fewer components than traditional solid state lasers, smaller volume, and easy to integrate into a small area. In addition, the energy conversion efficiency of fiber lasers is very high. The gain medium is rare earth doped glass, which is rich and cheap. Rare earth doped glass has very high beam quality and is widely used in industry, agriculture, laser communication, atmospheric detection, remote sensing, laser radar, medical surgery and other fields. Now fiber laser has become the mainstream of laser technology development and the main technology of laser industry application. Tm doped silica fiber lasers have been studied. The gain spectrum range of Tm ions is very wide, and its emission wavelength can cover 1800nm-2100nm. This range is just near the peak of the absorption spectrum of water molecules, which has great application value. This paper analyzes the structural characteristics of Tm doped fiber lasers, designs a new type of Tm doped silica fiber lasers, gives the equation of laser pulse, and then simulates the laser to obtain the mode locked pulse of the laser. The simulation results show that the designed Tm doped silica fiber lasers are feasible.},
     year = {2022}
    }
    

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  • TY  - JOUR
    T1  - Study of Tm Doped Silica Fiber Lasers Pumped by LD
    AU  - Ning Zhang
    AU  - Yansong Yang
    AU  - Xiaodan Chen
    Y1  - 2022/12/15
    PY  - 2022
    N1  - https://doi.org/10.11648/j.jeee.20221006.14
    DO  - 10.11648/j.jeee.20221006.14
    T2  - Journal of Electrical and Electronic Engineering
    JF  - Journal of Electrical and Electronic Engineering
    JO  - Journal of Electrical and Electronic Engineering
    SP  - 234
    EP  - 238
    PB  - Science Publishing Group
    SN  - 2329-1605
    UR  - https://doi.org/10.11648/j.jeee.20221006.14
    AB  - Fiber laser has many advantages. First of all, fiber lasers are relatively simple in structure, with fewer components than traditional solid state lasers, smaller volume, and easy to integrate into a small area. In addition, the energy conversion efficiency of fiber lasers is very high. The gain medium is rare earth doped glass, which is rich and cheap. Rare earth doped glass has very high beam quality and is widely used in industry, agriculture, laser communication, atmospheric detection, remote sensing, laser radar, medical surgery and other fields. Now fiber laser has become the mainstream of laser technology development and the main technology of laser industry application. Tm doped silica fiber lasers have been studied. The gain spectrum range of Tm ions is very wide, and its emission wavelength can cover 1800nm-2100nm. This range is just near the peak of the absorption spectrum of water molecules, which has great application value. This paper analyzes the structural characteristics of Tm doped fiber lasers, designs a new type of Tm doped silica fiber lasers, gives the equation of laser pulse, and then simulates the laser to obtain the mode locked pulse of the laser. The simulation results show that the designed Tm doped silica fiber lasers are feasible.
    VL  - 10
    IS  - 6
    ER  - 

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Author Information
  • Smart City College, Beijing Union University, Beijing, China

  • Smart City College, Beijing Union University, Beijing, China

  • Smart City College, Beijing Union University, Beijing, China

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