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Infrared and Laser Engineering, Volume. 49, Issue 12, 20201062(2020)

2.86 μm lasing in Ho3+/Pr3+ codoped fluoroaluminate glass fiber (Invited)

Jiquan Zhang1, Mo Liu1, Niannian Xu1, Shijie Jia1, Shunbin Wang1, and Pengfei Wang2
Author Affiliations
  • 1Key Lab of In-Fiber Integrated Optics of Ministry of Education of China, Harbin Engineering University, Harbin 150001, China
  • 2Key Lab of In-Fiber Integrated Optics of Ministry of Education of China, Harbin Engineering University, Harbin 150001, China
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    [1] Wang W C, Zhou B, Xu S H. Recent advances in soft optical glass fiber and fiber lasers[J]. Progress in Materials Science, 101, 90-171(2019).

    [2] Li S, Yan X. Research on mid-infrared laser source in laser countermeasure system and key technology[J]. Electro-Optic Technology Application, 33, 19-23(2018).

    [3] [3] Molocher B. Countermeasure laser development[C]European Symposium on Optics Photonics f Defence Security, 2005.

    [4] [4] Bekman H H P T, Van Den Heuvel J C, Van Putten F J M, et al. Development of a infrared laser f study of infrared countermeasures techniques[C]SPIE, 2005, 5615: 2738.

    [5] [5] Benedikt J, Bende T. IR Laser Applications in Medicine[M]. Berlin: Springer, 2003.

    [6] Kaufmann R, Hartmann A, Hibst R. Cutting and skin-ablative properties of pulsed mid-infrared laser surgery[J]. Journal of Dermatologic Surgery & Oncology, 20, 112-118(2013).

    [7] Treat M, Trokel S L, Defilippi V J. Mid-infrared lasers for endoscopic surgery. A new class of surgical lasers[J]. Am Surg, 55, 81-84(1989).

    [8] [8] Hutchens T C, Darafsheh A, Fardad A, et al. Novel microsphere chain fiber tips f use in infrared ophthalmic laser surgery[C]SPIE, 2012, 8218: 821803.

    [9] Liu J, Tan Q, Zhang W. Miniature low-power IR monitor for methane detection[J]. Measurement, 44, 823-831(2011).

    [10] [10] Tittel F K, Richter D, Fried A. Infrared Laser Applications in Spectroscopy[M]. Berlin: Springer, 2003.

    [11] Aydin Y O, Fortin V, Vallée R. Towards power scaling of 2.8 μm fiber lasers[J]. Optics Letters, 43, 4542-4545(2018).

    [12] Majewski M R, Jackson S D. Tunable dysprosium laser[J]. Optics Letters, 41, 4496(2016).

    [13] Fortin V, Jobin F, Maxence L. 10-W-level monolithic dysprosium-doped fiber laser at 3.24 μm[J]. Optics Letters, 44, 491(2019).

    [14] Crawford S, Hudson D D, Jackson S D. High-power broadly tunable 3-μm fiber laser for the measurement of optical fiber loss[J]. IEEE Photonics Journal, 7, 1-1(2015).

    [15] Jia S J, Jia Z X, Yao C F. Ho3+doped fluoroaluminate glass fibers for 2.9 μm lasing[J]. Laser Physics, 28, 015802(2018).

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    Jiquan Zhang, Mo Liu, Niannian Xu, Shijie Jia, Shunbin Wang, Pengfei Wang. 2.86 μm lasing in Ho3+/Pr3+ codoped fluoroaluminate glass fiber (Invited)[J]. Infrared and Laser Engineering, 2020, 49(12): 20201062

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    Paper Information

    Category: Advanced Laser Technology

    Received: Sep. 20, 2020

    Accepted: --

    Published Online: Jan. 14, 2021

    The Author Email:

    DOI:10.3788/IRLA20201062

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology