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Infrared and Laser Engineering, Volume. 50, Issue 10, 20200476(2021)

Rapid fabrication and characteristics analysis of high-filling-factor microlens array

Shaoqi Huang, Zeyuan Song, Mingliang Pan, Yan Long, Bo Dai, and Dawei Zhang
Author Affiliations
  • School of Optical-Electrical and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China
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    References(13)

    [1] Zhao Haixia, Fang Xuan, Wang Yanbin, et al. Formation of interface defects of ZnO/ZnS core-shell nanowires and its optical properties investigations[J]. Chinese Optics, 12, 873-880(2019).

    [2] Hu Yi, Hu Gengxin, Zhang Jiejing, et al. Fabrication of ZnO nanorods/CdS quantum dots and its detection performance in UV-Visible waveband[J]. Chinese Optics, 12, 1271-1278+1379(2019).

    [3] Hu Yueqiang, Li Xin, Wang Xudong, et al. Progress of micro-nano fabrication technologies for optical metasurfaces[J]. Infrared and Laser Engineering, 49, 20201035(2020).

    [4] Fu Wei, Huang Kun. All-optical image processing technology and applications based on micro-/nano-devices[J]. Infrared and Laser Engineering, 49, 20201040(2020).

    [5] Ding Tao, Yang Dongjiao, Liu Jiezhen, et al. Demolding deformation of surface micro-prism array structure part based on injection molding[J]. Optics and Precision Engineering, 28, 2466-2477(2020).

    [6] Shu Chengsong, Dong Hao, Yin Shaohui, et al. Research progress of high precision micro structure glass optical element array molding technology[J]. Optics and Precision Engineering, 28, 1967-1985(2020).

    [7] Wang W, Chen G, Weng Y, et al. Large-scale microlens arrays on flexible substrate with improved numerical aperture for curved integral imaging 3D display[J]. Scientific Reports, 10, 1-9(2020).

    [8] Jung H, Jeong K H. Monolithic polymer microlens arrays with high numerical aperture and high packing density[J]. ACS Applied Materials & Interfaces, 7, 2160-2165(2015).

    [9] Stankevicius E, Gedvilas M, Raciukaitis G. Investigation of laser-induced polymerization using a smoothly varying intensity distribution[J]. Applied Physics B, 119, 525-532(2015).

    [10] Ou Y, Yang Q, Chen F, et al. Direct fabrication of microlens arrays on PMMA with laser-induced structural modification[J]. IEEE Photonics Technology Letters, 27, 2253-2256(2015).

    [11] Dai B, Jiao Z, Zheng L, et al. Colour compound lenses for a portable fluorescence microscope[J]. Light, Science & Applications, 8, 1-13(2019).

    [12] Xu Q, Dai B, Huang Y, et al. Fabrication of polymer microlens array with controllable focal length by modifying surface wettability[J]. Optics Express, 26, 4172-4182(2018).

    [13] Xu Q, Dai B, Jiao Z, et al. Fabrication of large micro-structured high-numerical-aperture optofluidic compound eyes with tunable angle of view[J]. Optics Express, 26, 33356-33365(2018).

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    Shaoqi Huang, Zeyuan Song, Mingliang Pan, Yan Long, Bo Dai, Dawei Zhang. Rapid fabrication and characteristics analysis of high-filling-factor microlens array[J]. Infrared and Laser Engineering, 2021, 50(10): 20200476

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    Paper Information

    Category: Optical devices

    Received: Dec. 20, 2020

    Accepted: --

    Published Online: Dec. 7, 2021

    The Author Email:

    DOI:10.3788/IRLA20200476

    Topics

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