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Optical Instruments, Volume. 44, Issue 4, 81(2022)

Development of a 783 nm femtosecond fiber laser with repetition frequency locking

Xu GUO, Cheng TANG, Yanluan WANG, and Qiang HAO*
Author Affiliations
  • School of Optical-Electrical Information and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China
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    [1] [1] TADOKO Y, TAKIDA Y, KUMAGAI H, et al. Comparative study on THz timedomain spectroscopy using 780nm 1.3ps laser pulses with different detections of LTGaAs photoconductive antenna ZnTe electrooptic sampling[C]Proceedings Volume 8604, Nonlinear Frequency Generation Conversion: Materials, Devices, Applications XII. San Francisco, Califnia, United States: SPIE, 2013: 86040D.

    [2] ZACH A, MOHSENI M, POLZER C, et al. All-fiber widely tunable ultrafast laser source for multimodal imaging in nonlinear microscopy[J]. Optics Letters, 44, 5218-5221(2019).

    [4] KRAUSS G, HANKE T, SELL A, et al. Compact coherent anti-Stokes Raman scattering microscope based on a picosecond two-color Er: fiber laser system[J]. Optics Letters, 34, 2847-2849(2009).

    [5] LIU H G, HU M L, SONG Y J, et al. Operation of Kerr-lens mode-locked Ti: sapphire laser in the non-soliton regime[J]. Chinese Physics B, 19, 372-377(2010).

    [7] MILLO J, BOUDOT R, LOURS M, et al. Ultra-low-noise microwave extraction from fiber-based optical frequency comb[J]. Optics Letters, 34, 3707-3709(2009).

    [8] FORTIER T M, KIRCHNER M S, QUINLAN F, et al. Generation of ultrastable microwaves via optical frequency division[J]. Nature Photonics, 5, 425-429(2011).

    [9] UDEM T, HOLZWARTH R, HÄNSCH T W. Optical frequency metrology[J]. Nature, 416, 233-237(2002).

    [10] LUDLOW A D, BOYD M M, YE J, et al. Optical atomic clocks[J]. Reviews of Modern Physics, 87, 637-701(2015).

    [13] RIEGER S, HELLWIG T, WALBAUM T, et al. Optical repetition rate stabilization of a mode-locked all-fiber laser[J]. Optics Express, 21, 4889-4895(2013).

    [14] SHEN X L, HE B Q, ZHAO J, et al. Repetition rate stabilization of an erbium-doped all-fiber laser via opto-mechanical control of the intracavity group velocity[J]. Applied Physics Letters, 106, 031117(2015).

    [16] KONG L J, ZHAO L M, LEFRANCOIS S, et al. Generation of megawatt peak power picosecond pulses from a divided-pulse fiber amplifier[J]. Optics Letters, 37, 253-255(2012).

    [17] LUO P, HAO Q, FU H M, et al. 60 nJ, 95 fs environmentally stable Er-doped fiber laser system[J]. Chinese Optics Letters, 17, 061401(2019).

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    Xu GUO, Cheng TANG, Yanluan WANG, Qiang HAO. Development of a 783 nm femtosecond fiber laser with repetition frequency locking[J]. Optical Instruments, 2022, 44(4): 81

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    Paper Information

    Category: INSTRUMENTS

    Received: Jan. 22, 2022

    Accepted: Mar. 16, 2022

    Published Online: Oct. 19, 2022

    The Author Email: HAO Qiang (qianghao@usst.edu.cn)

    DOI:10.3969/j.issn.1005-5630.2022.004.011

    Topics

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