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Chinese Optics, Volume. 16, Issue 4, 861(2023)

Tunable long-wave infrared optical parametric oscillator based on temperature-adjustable ZnGeP2

Jun-tao TIAN1,2, Hui LI1, Li-li ZHAO1,2, Zhi-yong LI1,2, Hai WANG1,2, Song-yang LIU1,2, Wen-ning XU1,2, Jin-zhou BAI1,2, and Rong-qing TAN1,2、*
Author Affiliations
  • 1Laser Engineering Center, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100094, China
  • 2School of Electronic, Electrical and Communication Engineering, University of Chinese Academy of Sciences, Beijing 100049, China
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    [1] MELKONIAN J M, ARMOUGOM J, RAYBAUT M, et al. Long-wave infrared multi-wavelength optical source for standoff detection of chemical warfare agents[J]. Applied Optics, 59, 11156-11166(2020).

    [2] CHEN Y. Development of airborne advanced infrared countermeasures technology[J]. Aerospace Electronic Warfare, 36, 19-23(2020).

    [3] SIJAN A. Development of military lasers for optical countermeasures in the mid-IR[J]. Proceedings of SPIE, 7483, 748304(2009).

    [4] LU Y, ZHU Z R, BAI J ZH, et al. Generation of tail-free short pulses using high-pressure CO2 laser[J]. Chinese Optics Letters, 20, 051401(2022).

    [5] PAN Q K, MIAO F CH, SI H L, . Compact pulsed CO2 laser with wavelength automatic tuning[J]. Chinese Optics, 15, 1007-1012(2022).

    [6] YAO B Q, YANG K, MI SH Y, . Research progress of high-power Ho: YAG lasers and its application for pumping mid-far-infrared nonlinear frequency conversion in ZGP, BGSe and CdSe crystals[J]. Chinese Journal of Lasers, 49, 0101002(2022).

    [7] LI CH, XIE J J, PAN Q K, . Progress of mid-infrared optical parametric oscillator[J]. Chinese Optics, 9, 615-624(2016).

    [8] HUANG Y, ZHANG Y L, GAO ZH Q, . Research on widely tunable external cavity quantum cascade lasers for trace gas detection[J]. Journal of Telemetry, Tracking and Command, 40, 20-27(2019).

    [9] QIAN CH P, DUAN X M, YAO B Q, et al. 11.4 W long-wave infrared source based on ZnGeP2 optical parametric amplifier[J]. Optics Express, 26, 30195-30201(2018).

    [10] HAIDAR S, MIYAMOTO K, ITO H. Generation of tunable mid-IR (5.5 - 9.3 μm) from a 2-μm pumped ZnGeP2 optical parametric oscillator[J]. Optics Communications, 241, 173-178(2004).

    [11] LIU G Y, CHEN Y, YAO B Q, et al. 3.5 W long-wave infrared ZnGeP2 optical parametric oscillator at 9.8 µm[J]. Optics Letters, 45, 2347-2350(2020).

    [12] TIAN J T, LI ZH Y, ZHAO L L, et al. Long-wave infrared ZnGeP2 optical parametric oscillator with improved tunability by use of a cavity compensation technique[J]. Optical Engineering, 61, 076102(2022).

    [13] DAS S. Pump tuned wide tunable noncritically phase-matched ZnGeP2 narrow line width optical parametric oscillator[J]. Infrared Physics & Technology, 69, 13-18(2015).

    [14] MENG D D, QIAO ZH D, GAO B G, . Experimental study on tunable characteristics of optical parametric oscillator based on ZnGeP2 in long-infared dual-band[J]. Infrared and Laser Engineering, 51, 2021G008(2022).

    [15] BHAR G, GHOSH G. Temperature dependent phase-matched nonlinear optical devices using CdSe and ZnGeP2[J]. IEEE Journal of Quantum Electronics, 16, 838-843(1980).

    [16] IONIN A A, KINYAEVSKIY I O, KLIMACHEV Y M, et al. Temperature phase-matching tuning of nonlinear ZnGeP2 crystal for frequency conversion under noncritical spectral phase-matching[J]. Infrared Physics & Technology, 102, 103009(2019).

    [17] GUHA S. Updated temperature dependent Sellmeier equations for ZnGeP2 crystals (Conference Presentation)[J]. Proceedings of SPIE, 10902, 1090210(2019).

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    Jun-tao TIAN, Hui LI, Li-li ZHAO, Zhi-yong LI, Hai WANG, Song-yang LIU, Wen-ning XU, Jin-zhou BAI, Rong-qing TAN. Tunable long-wave infrared optical parametric oscillator based on temperature-adjustable ZnGeP2[J]. Chinese Optics, 2023, 16(4): 861

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    Paper Information

    Category: Original Article

    Received: Oct. 18, 2022

    Accepted: Dec. 12, 2022

    Published Online: Jul. 27, 2023

    The Author Email:

    DOI:10.37188/CO.2022-0217

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