• Infrared and Laser Engineering
  • Vol. 54, Issue 5, 20240411 (2025)
Yu YUN, Chunxia WU, Minglei ZHANG, and Yuejian CHEN
Author Affiliations
  • Jiu Yuan High-Tech Equipment Corporation, Beijing100094, China
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    DOI: 10.3788/IRLA20240411 Cite this Article
    Yu YUN, Chunxia WU, Minglei ZHANG, Yuejian CHEN. Research of 532 nm/1 064 nm dual-band high reflective coatings applied in space-based lidar[J]. Infrared and Laser Engineering, 2025, 54(5): 20240411 Copy Citation Text show less
    References

    [1] Tianhe WANG, Mengxian SUN, Jianping HUANG. Research review on dust and pollution using spaceborne lidar in China. Transactions of Atmospheric Sciences, 43, 144-158(2020).

    [2] Yan HE, Shanjiang HU, Weibiao CHEN et al. Research progress of domestic airborne dual-frequency LiDAR detection technology. Laser & Optoelectronics Progress, 55, 7-17(2018).

    [3] Guojun ZHAI, Motao HUANG, Yongzhong OUYANG et al. Key technologies related to the development of airborne laser bathymetry system. Hydrographic Surveying and Charting, 34, 73-76(2014).

    [4] Jianing DONG, Jie FAN, Haizhu WANG et al. Research progress in laser damage of high reflective optical thin films. Chinese Optics, 11, 931-948(2018).

    [5] Yuyao LI, Fei WANG, Tongtong SUN. Calibration technology of laser-induced damage threshold of thin films. Laser Technology, 45, 729-734(2021).

    [6] Yong CHENG, Yimin LU, Huang TANG et al. Researches on laser damage resistance of optical films. High Power Laser and Particle Beams, 28, 7-15(2016).

    [7] Zhengxiu FAN. Development and recent progress of optical thin films. Acta Optica Sinica, 31, 276-280(2011).

    [8] WERNHAM D, PIEGARI A. Optical Coatings in The Space Environment[M]. Cambridge: Woodhead Publishing, 2018: 789811.

    [9] Xinbin CHENG, Zhengxiang SHEN, Hongfei JIAO et al. Preparation of SiO2/HfO2 high reflectors. High Power Laser and Particle Beams, 24, 1276-1280(2012).

    [10] C J STOLZ, R A NEGRES. Ten-year summary of the Boulder Damage Symposium annual thin film laser damage competition. Optical Engineering, 57(2018).

    [11] RIEDE W, JENSEN L, JUPE M, et al. Damage threshold investigations of highpower laser optics under atmospheric vacuum conditions[C]Boulder Damage Symposium XXXVIII. 2006, 6403: 291300.

    [12] J B OLIVER, P KUPINSKI, A L RIGATTI et al. Stress compensation in hafnia/silica optical coatings by inclusion of alumina layers. Optics Express, 20, 16596-16610(2012).

    [13] X CHENG, S DONG, S ZHI et al. Waterproof coatings for high-power laser cavities. Light: Science & Applications, 8, 1-6(2019).

    [14] T ZENG, M ZHU, C YIN et al. Strategy to improve the long-term stability of low-stress e-beam coatings. Optical Materials Express, 10, 2738-2748(2020).

    [15] Shanshan DUAN, Changyong SHI, Lizhen YANG et al. The recent development and future of atomic layer deposition of alumina thin films. Vaccum, 58, 13-20(2021).

    [16] P F CARCIA, R S MCLEAN, M H REILLY. Permeation measurements and modeling of highly defective Al2O3 thin films grown by atomic layer deposition on polymers. Applied Physics Letters, 97, 221901(2010).

    [17] M D GRONER, S M GEORGE, R S MCLEAN et al. Gas diffusion barriers on polymers using Al2O3 atomic layer deposition. Applied Physics Letters, 88, 051907(2006).

    [18] S M GEORGE. Atomic layer deposition: an overview. Chemical Reviews, 110, 111-131(2010).

    [19] Z WANG, G BAO, H JIAO et al. Interfacial damage in a Ta2O5/SiO2 double cavity filter irradiated by 1064 nm nanosecond laser pulses. Optics Express, 21, 30623-30632(2013).

    [20] X LING, G WANG, Y ZHAO et al. Laser-induced damage of the optical films prepared by electron beam evaporation and ion beam sputtering in vacuum. Optik, 125, 6474-6477(2014).

    [21] Qian ZHANG, Hongfei JIAO, Xinbin CHENG et al. Analysis of optical and damage properties for several ultraviolet thin film materials. Infrared and Laser Engineering, 43, 1230-1234(2014).

    [22] T ZENG, M ZHU, Y CHAI et al. Effects of water adsorption on properties of electron-beam HfO2/SiO2 high-reflection coatings. Thin Solid Films, 697, 137826(2020).

    [23] Shuzheng SHI, Liyong MA, Zhanying WANG. Preparation by atomic layer deposition and spectroscopic ellipsometry of amorphous aluminium oxide films. Micronanoelectronic Technology, 59, 1218-1225, 1241(2022).

    [24] Yang ZHAO, Yu HE, Hongfei JIAO et al. Preparation of oxide films in TM laser cavity mirrors with high damage threshold. Infrared and Laser Engineering, 45, 0521001(2016).

    Yu YUN, Chunxia WU, Minglei ZHANG, Yuejian CHEN. Research of 532 nm/1 064 nm dual-band high reflective coatings applied in space-based lidar[J]. Infrared and Laser Engineering, 2025, 54(5): 20240411
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