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Laser & Optoelectronics Progress, Volume. 62, Issue 7, 0714004(2025)

Dual-Wavelength Raman Laser at 1176/1181 nm Based on Raman Gain from YVO4/BaWO4 Raman Crystals

Chunpeng Shi1,2, Jinhui Li3, Quan Sheng1、*, Wei Shi1、**, and Jianquan Yao1
Author Affiliations
  • 1School of Precision Instrument and Opto-Electronics Engineering, Tianjin University, Tianjin 300072, China
  • 2Academy of Opto-Electronics, China Electronics Technology Group Corporation, Tianjin 300308, China
  • 3Chengxian College, Southeast University, Nanjing 210088, Jiangsu , China
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    [2] Lü X J, Yang B, Yao H Q et al. Dual-wavelength mid-infrared laser for long-range gas detection (invited)[J]. Laser & Optoelectronics Progress, 61, 0114001(2024).

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    [5] Li B, Yao J Q, Ding X et al. A novel CW yellow light generated by a diode-end-pumped intra-cavity frequency mixed Nd∶YVO4 laser[J]. Optics & Laser Technology, 56, 99-101(2014).

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    [8] Cai X L, Xu M, Jia Y X et al. Stimulated vibrational-rotational Raman scattering of hydrogen pumped at a 1064-nm laser[J]. Applied Optics, 62, 1274-1278(2023).

    [9] Song S Y, Sun J L, Qian F Y et al. High beam quality and high peak power 1.6 µm deuterium Raman laser[J]. Optics Letters, 49, 6085-6088(2024).

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    [11] Sheng Q, Geng J N, Li J H et al. Efficient continuous-wave Nd∶YVO4/KGW intra-cavity Raman laser[J]. Chinese Journal of Lasers, 51, 0501003(2024).

    [12] Wang X J, Wang X L, Zheng Z F et al. 1164.4 nm and 1174.7 nm dual-wavelength Nd: GdVO4/Cr4+: YAG/YVO4 passively Q-switched Raman microchip laser[J]. Applied Optics, 57, 3198-3204(2018).

    [13] Duan Y M, Sun Y L, Zhu H Y et al. Polarization-dependent YVO4 crystal Raman laser operation with 816 and 890 cm-1 shifts[J]. Optics & Laser Technology, 144, 107429(2021).

    [14] Granados E, Pask H M, Esposito E et al. Multi-wavelength, all-solid-state, continuous wave mode locked picosecond Raman laser[J]. Optics Express, 18, 5289-5294(2010).

    [15] Fan L, Xiang K Y, Shen J et al. High-peak-power orthogonally-polarized dual-wavelength Nd∶YLF/BaWO4 Raman laser[J]. Acta Physica Sinica, 71, 094203(2022).

    [16] Chen Y F, Liu Y C, Pan Y Y et al. Efficient high-power dual-wavelength lime-green Nd∶YVO4 lasers[J]. Optics Letters, 44, 1323-1326(2019).

    [17] Shen H B, Wang Q P, Zhang X Y et al. Simultaneous dual-wavelength operation of Nd∶YVO4 self-Raman laser at 1524 nm and undoped GdVO4 Raman laser at 1522 nm[J]. Optics Letters, 37, 4113-4115(2012).

    [18] Tu Z H, Dai S B, Chen M T et al. High-peak-power eye-safe orthogonally-polarized dual-wavelength Nd∶YLF/KGW Raman laser[J]. Optics Express, 28, 8802-8810(2020).

    [19] Bai Z X, Chen H, Zhang Z P et al. Hundred-watt dual-wavelength diamond Raman laser at 1.2/1.5 μm (invited)[J]. Infrared and Laser Engineering, 50, 20210685(2021).

    [20] Pask H M. The design and operation of solid-state Raman lasers[J]. Progress in Quantum Electronics, 27, 3-56(2003).

    [21] Yan Y P, Sun Y X, Yang X Z et al. External-cavity tunable yellow-red laser based on Ng-cut KGW Raman conversion and frequency mixing[J]. Applied Physics B, 130, 165(2024).

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    Chunpeng Shi, Jinhui Li, Quan Sheng, Wei Shi, Jianquan Yao. Dual-Wavelength Raman Laser at 1176/1181 nm Based on Raman Gain from YVO4/BaWO4 Raman Crystals[J]. Laser & Optoelectronics Progress, 2025, 62(7): 0714004

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    Paper Information

    Category: Lasers and Laser Optics

    Received: Oct. 30, 2024

    Accepted: Dec. 2, 2024

    Published Online: Apr. 8, 2025

    The Author Email: Quan Sheng (shengquan@tju.edu.cn), Wei Shi (shiwei@tju.edu.cn)

    DOI:10.3788/LOP242193

    CSTR:32186.14.LOP242193

    Topics

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