Journals Articles Conferences News About CLP
Submit a paper Email Alert
Search
Search
Articles
Journals
News
Advanced Search
Top Searches
2D MaterialsTransformation opticsQuantum PhotonicsSmall lasersSemiconductor UV PhotonicsSupersymmetric microring laser arrays

Laser & Optoelectronics Progress, Volume. 62, Issue 1, 0100006(2025)

Research Progress of Wideband-Tunable Narrow-Linewidth Fiber Laser in 2 μm Waveband

Jianwei Wang1,2,3,4、*, Hui Shen2,3,4, Yunfeng Qi2,3,4, Bo Dai1, and Xisheng Ye1,2,3,4
Author Affiliations
  • 1School of Optical-Electrial and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093
  • 2Wang Zhijiang Laser Innovation Center, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800
  • 3Shanghai Key Laboratory of All Solid-State Laser and Applied Techniques, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
  • 4Aerospace Laser Technology and System Department, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
    • show less
    AbstractGet PDF(in Chinese)
    Figures&Tables (22)
    Equations (2)
    References (46)
    Tools
    Paper Information
    Topics
    References(46)

    [1] Jackson S D. The spectroscopic and energy transfer characteristics of the rare earth ions used for silicate glass fibre lasers operating in the shortwave infrared[J]. Laser Photonics Reviews, 3, 466-482(2009).

    [2] Hall L A, Gonzalez D A, Fried N M. Thulium fiber laser ablation of kidney stones using an automated, vibrating fiber[J]. Journal of Biomedical Optics, 24, 038001(2019).

    [3] Brassington D J. Differential absorption lidar measurements of atmospheric water vapor using an optical parametric oscillator source[J]. Applied Optics, 21, 4411-4416(1982).

    [4] Schneider J, Forster P, Romano C et al. High pulse energy ZnGeP2 OPO directly pumped by a Q-switched Tm3+-doped single-oscillator fiber laser[J]. Optics Letters, 46, 2139-2142(2021).

    [5] Cheng Y, Zhang Z, Kong Z et al. Evaluation of systematic errors for the continuous-wave NO2 differential absorption lidar employing a multimode laser diode[J]. Applied Optics, 59, 9087-9097(2020).

    [6] Sadiq M U, Zhang H, O’Callaghan J et al. 40 Gbit/s WDM transmission over 1.15-km HC-PBGF using an InP-based Mach-Zehnder modulator at 2 μm[J]. Journal of Lightwave Technology, 34, 1706-1711(2016).

    [7] Hanna D C, Jauncey I M, Percival R M et al. Continuous-wave oscillation of a monomode thulium doped fibre laser[J]. Electronics Letters, 24, 1222-1223(1988).

    [8] Jackson S D, King T. High-power diode-cladding-pumped Tm-doped silica fiber laser[J]. Optics Letters, 23, 1462-1464(1998).

    [9] Clarkson W A, Barnes N P, Turner P W et al. High-power cladding-pumped Tm-doped silica fiber laser with wavelength tuning from 1860 to 2090 nm[J]. Optics Letters, 27, 1989-1991(2002).

    [10] Sims R A, Mccomb T, Sudesh V et al. Narrow linewidth tunable CW thulium fiber lasers with VBG and GMRF stabilization[C](2009).

    [11] Cook J, Roumayah P, Shin D J et al. Narrow linewidth 80 W tunable thulium-doped fiber laser[J]. Optics Laser Technology, 146, 107568(2022).

    [12] Ren C, Shen Y, Zheng Y et al. Widely-tunable all-fiber Tm doped MOPA with 1 kW of output power[J]. Optics Express, 31, 733-739(2023).

    [13] Berthomé Q, Grisard A, Faure B et al. Actively Q-switched tunable single-longitudinal-mode 2m Tm∶YAP laser using a transversally chirped volume Bragg grating[J]. Optics Express, 28, 5013-5021(2020).

    [14] Meng P B, Qi M, Rong W et al. Wavelength tuning characteristics of Nd∶YAG/Cr4+∶YAG laser based on volume Bragg grating[J]. Acta Photonica Sinica, 50, 0514005(2021).

    [15] Daniel J M O, Tokurakawa M, Clarkson W A. Power-scalable wavelength-agile fibre laser source at two-microns[C](2012).

    [16] Fang X L, Tong Z R, Cao Y et al. Narrow linewidth ring cavity fiber laser using F-P fiber ring filter[J]. Infrared and Laser Engineering, 42, 329-333(2013).

    [17] Shen D Y, Sahu J K, Clarkson W A. High-power widely tunable Tm: fiber lasers pumped by an Er, Yb co-doped fiber laser at 1.6μm[J]. Optics Express, 14, 6084-6090(2006).

    [18] McComb T S, Sims R A, Willis C C et al. High-power widely tunable thulium fiber lasers[J]. Applied Optics, 49, 6236-6242(2010).

    [19] Geng J, Wang Q, Wang J et al. All-fiber wavelength-swept laser near 2μm[J]. Optics Letters, 36, 3771-3773(2011).

    [20] Guo C, Shen D, Long J et al. High-power and widely tunable Tm-doped fiber laser at 2 μm[J]. Optics Letters, 10, 91406(2012).

    [21] Li Z, Alam S U, Jung Y et al. All-fiber, ultra-wideband tunable laser at 2μm[J]. Optics Letters, 38, 4739-4742(2013).

    [22] Li J, Sun Z, Luo H et al. Wide wavelength selectable all-fiber thulium doped fiber laser between 1925nm and 2200nm[J]. Optics Express, 22, 5387-5399(2014).

    [23] Zhang H, Kang S, Liu B et al. All-fiber acousto-optic tunable bandpass filter based on a lateral offset fiber splicing structure[J]. IEEE Photonics Journal, 7, 1-12(2017).

    [24] Escobar E, Jiménez M, Avilés A et al. Experimental study of an in-fiber acousto-optic tunable bandpass filter for single- and dual-wavelength operation in a thulium-doped fiber laser[J]. Optics Express, 27, 38602-38613(2019).

    [25] Engan H E, Kim B Y, Blake J N et al. Propagation and optical interaction of guided acoustic waves in two-mode optical fibers[J]. Lightwave Technology, 6, 428-436(1988).

    [26] Kim B Y, Blake J N, Engan H E et al. All-fiber acousto-optic frequency shifter[J]. Optics Letters, 11, 389-391(1986).

    [27] Yin T C. Study on narrow-linewidth fiber lasers for gas detection applications[D](2020).

    [28] Agger S, Varming P, Povlsen J H. Single-frequency thulium-doped silica DFB fiber laser at 1735nm[J]. Proceedings of SPIE-The International Society for Optical Engineering, 5335, 277-284(2004).

    [29] Fu S, Shi W, Lin J et al. Single-frequency fiber laser at 1950nm based on thulium-doped silica fiber[J]. Optics Letters, 40, 5283-5286(2015).

    [30] Yin T, Song Y, Jiang X et al. 400mW narrow linewidth single-frequency fiber ring cavity laser in 2 μm waveband[J]. Optics Express, 27, 15794(2019).

    [31] Zhang L, Sheng Q, Chen L et al. Single-frequency Tm-doped fiber laser with 215 mW at 2.05 µm based on a Tm/Ho-codoped fiber saturable absorber[J]. Optics Letters, 47, 3964-3967(2022).

    [32] Guan B, Yan F P, Yang D D et al. Sub-kHz narrow-linewidth single-longitudinal-mode thulium-doped fiber laser utilizing triple-coupler ring-based compound-cavity filter[J]. Photonics, 10, 209(2023).

    [33] Xu S H, Yang Z M, Liu T et al. An efficient compact 300 mW narrow-linewidth single frequency fiber laser at 1.5 microm[J]. Optics Express, 18, 1249-1254(2010).

    [34] Jiao M J, Wang X, Hu L L. Influences of Tm2O3 doping concentration on thermal stability and spectroscopic properties of germanate glass[J]. Chinese Journal of Lasers, 45, 0603001(2018).

    [35] Bai Y, Yan F P, Feng T et al. Ultra-narrow-linewidth fiber laser in 2 μm band using saturable absorber based on PM-TDF[J]. Chinese Journal of Lasers, 46, 0101003(2019).

    [36] Li Y J, Huang L G, Gao L et al. Optically controlled tunable ultra-narrow linewidth fiber laser with Rayleigh backscattering and saturable absorption ring[J]. Optics Express, 26, 26896-26906(2018).

    [37] Zhang L, Yan F, Feng T et al. Six-wavelength-switchable narrow-linewidth thulium-doped fiber laser with polarization-maintaining sampled fiber Bragg grating[J]. Optics Laser Technology, 136, 106788(2020).

    [38] Geng J, Wang Q, Wang J et al. All-fiber wavelength-swept laser near 2 μm[J]. Optics Letters, 36, 3771-3773(2011).

    [39] Lim S D, Yoo J K, Kim S K. Widely tunable Watt-level single-frequency Tm-doped fiber ring laser as pump for mid-IR frequency generation[J]. Photonics Journal IEEE, 8, 1-7(2016).

    [40] Yin K, Zhu R Z, Zhang B et al. 300 W-level, wavelength-widely-tunable, all-fiber integrated thulium doped fiber laser[J]. Optics Express, 24, 11085-11090(2016).

    [41] Yin T, Mao M, Wei Y et al. Widely wavelength-tunable 2 μm Brillouin fiber laser incorporating a highly germania-doped fiber[J]. Applied Optics, 57, 6831(2018).

    [42] Yin T, Wei Y, Mei W. Widely wavelength-tunable single-longitudinal-mode thulium-doped fiber laser incorporating a saturable absorber[C](2017).

    [43] Qin Q, Yan F, Liu Y et al. Stable, precisely controlled, and switchable thulium-doped fiber laser based on cascaded mode interference filters[J]. Optics Express, 29, 9786-9796(2021).

    [44] Tao M M, Wang Y M, Wu H L et al. Hyperspectral absorption of water around 2 μm based on a boradband tunable, narrow linewidth Tm-doped fiber laser[J]. Acta Physica Sinica, 71, 114203(2022).

    [45] Alexandre A, Clément G, Wiktor W et al. Tunable all PM ring-cavity multi-Watt Tm-doped fiber laser module for 1890-2050 nm[J]. Optical Fiber Technology, 84, 103690(2024).

    [46] Liu F, Liu P, Feng X et al. Tandem-pumped, tunable thulium-doped fiber laser in 2.1 μm wavelength region[J]. Optics Express, 27, 8283-8290(2019).

    Tools

    Get Citation

    Copy Citation Text

    Jianwei Wang, Hui Shen, Yunfeng Qi, Bo Dai, Xisheng Ye. Research Progress of Wideband-Tunable Narrow-Linewidth Fiber Laser in 2 μm Waveband[J]. Laser & Optoelectronics Progress, 2025, 62(1): 0100006

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Set citation alerts for article
    Save article for my favorites
    Paper Information

    Category: Reviews

    Received: Apr. 7, 2024

    Accepted: May. 22, 2024

    Published Online: Jan. 6, 2025

    The Author Email:

    DOI:10.3788/LOP241040

    CSTR:32186.14.LOP241040

    Topics

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