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High Power Laser Science and Engineering, Volume. 12, Issue 6, 06000e73(2024)

A 100 W-level ultra-narrow fiber-coupled 780 nm diode laser

Longfei Jiang1,2,3, Rui Wang1,2,3, Huizi Zhao1,2,3, Jianyong Sun1,2,3, Qingshan Liu1,2,3, Zining Yang1,2,3、*, Hongyan Wang1,2,3、*, Weiqiang Yang1,2,3, Weihong Hua1,2,3, and Xiaojun Xu1,2,3
Author Affiliations
  • 1College of Advanced Interdisciplinary Studies, National University of Defense Technology, Changsha, China
  • 2Nanhu Laser Laboratory, National University of Defense Technology, Changsha, China
  • 3Hunan Provincial Key Laboratory of High Energy Laser Technology, National University of Defense Technology, Changsha, China
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    Schematic of the Rb cell, the magnets and the heating system.

    Fig. 1. Schematic of the Rb cell, the magnets and the heating system.

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    Schematic of the experimental setup of the FADOF’s transmission spectrum measurement. BS, beam splitter; PBS, polarization beam splitter; PD, photodetector.

    Fig. 2. Schematic of the experimental setup of the FADOF’s transmission spectrum measurement. BS, beam splitter; PBS, polarization beam splitter; PD, photodetector.

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    Transmission spectra of the Rb cell and the FADOF. Subfigures (a)–(d) represent the results for cell temperatures of 90°C, 100°C, 110°C and 120°C.

    Fig. 3. Transmission spectra of the Rb cell and the FADOF. Subfigures (a)–(d) represent the results for cell temperatures of 90°C, 100°C, 110°C and 120°C.

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    Schematic of the experimental setup of an FADOF-based external cavity diode laser. PBS, polarization beam splitter; HWP, half-wave plate.

    Fig. 4. Schematic of the experimental setup of an FADOF-based external cavity diode laser. PBS, polarization beam splitter; HWP, half-wave plate.

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    Schematic of the internal structure of the fiber-coupled diode laser. HWP, half-wave plate.

    Fig. 5. Schematic of the internal structure of the fiber-coupled diode laser. HWP, half-wave plate.

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    (a) Measured spectra of the free-running and the locked diode laser. (b) Spectrum of the ECDL in log scale.

    Fig. 6. (a) Measured spectra of the free-running and the locked diode laser. (b) Spectrum of the ECDL in log scale.

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    The Fabry–Pérot spectrum of the FADOF-based ECDL.

    Fig. 7. The Fabry–Pérot spectrum of the FADOF-based ECDL.

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    The output power of the free-running (purple) and the locked (blue) diode laser with respect to the drive current.

    Fig. 8. The output power of the free-running (purple) and the locked (blue) diode laser with respect to the drive current.

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    Longfei Jiang, Rui Wang, Huizi Zhao, Jianyong Sun, Qingshan Liu, Zining Yang, Hongyan Wang, Weiqiang Yang, Weihong Hua, Xiaojun Xu. A 100 W-level ultra-narrow fiber-coupled 780 nm diode laser[J]. High Power Laser Science and Engineering, 2024, 12(6): 06000e73

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    Paper Information

    Category: Research Articles

    Received: May. 6, 2024

    Accepted: Jul. 25, 2024

    Published Online: Dec. 12, 2024

    The Author Email: Zining Yang (yangzining09@nudt.edu.cn), Hongyan Wang (wanghongyan@nudt.edu.cn)

    DOI:10.1017/hpl.2024.47

    Topics

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