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Optoelectronic Technology, Volume. 43, Issue 1, 62(2023)

Design of Diffractive Optical Element Based on Extended Scalar Diffraction Theory

Liangliang YANG, Fahua SHEN, Qi ZHAO, Jianli LIU, and Yongbing ZHAO
Author Affiliations
  • Jiangsu Province Intelligent Optoelectronic Devices and Measurement Control Engineering Research Center, School of Physics and Electronics Engineering, Yancheng Teachers University, Yancheng Jiangsu 224007, CHN
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    References(13)

    [1] Greisukh G I, Ezhov E G, Zakharov O A. Diffractive microstructures of zoom lenses for visible and near-infrared ranges based on novel optical plastics[J]. Journal of Optical Technology, 89, 127-131(2022).

    [4] Zhang S Q, Zhou L Y, Xue C X et al. Design and simulation of a superposition compound eye system based on hybrid diffractive-refractive lenses[J]. Applied Optics, 56, 7442-7449(2017).

    [5] Shima G G, David Fischer, Stefan Sinzinger. Multifocal multi-value phase zone plate for 3D focusing[J]. Applied Optics, 58, 8943-8949(2019).

    [7] Xue C X, Cui Q F. Design of multilayer diffractive optical elements with polychromatic integral diffraction efficiency[J]. Optics Letters, 35, 986-988(2010).

    [8] Yang L L, Liu C L, Li S Q. Optimal design of depth-scaling error for multilayer diffractive optical elements with oblique incidence[J]. Applied Optics, 56, 4532-4536(2017).

    [9] Gao L, To S, Yang H F et al. Effect of assembling errors on the diffraction efficiency for multilayer diffractive optical elements[J]. Applied Optics, 53, 7341-7347(2014).

    [10] Noponen E, Turunen J. Binary high-frequency-carrier diffractive optical elements: Electromagnetic theory[J]. Journal of the Optical Society of America A, 11, 1097-1109(1994).

    [11] Laborde V, Loicq J, Habraken S. Modeling infrared behavior of multilayer diffractive optical elements using Fourier optics[J]. Applied Optics, 60, 2037-2045(2021).

    [12] Pang H, Yin S Y, Deng Q L et al. A novel method for the design of diffractive optical elements based on the Rayleigh–Sommerfeld integral[J]. Optics and Lasers in Engineering, 70, 38-44(2015).

    [13] Yang H F, Xue C X. Sensitivity of diffraction efficiency to period width errors for multilayer diffractive optical elements[J]. Applied Optics, 57, 855-860(2018).

    [14] Swanson G J. Binary optics technology: Theoretical limits on the diffraction efficiency of multilevel diffractive optical elements[report].

    [15] Greisukh G I, Danilov V A, Ezhov E G et al. Comparison of electromagnetic and scalar methods for evaluation of efficiency of diffractive lenses for wide spectral bandwidth[J]. Optics Communications, 338, 54-57(2015).

    [16] Huo F R, Wang W S, Xue C X. Limits of scalar diffraction theory for multilayer diffractive optical elements[J]. Optik, 127, 5688-5694(2016).

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    Liangliang YANG, Fahua SHEN, Qi ZHAO, Jianli LIU, Yongbing ZHAO. Design of Diffractive Optical Element Based on Extended Scalar Diffraction Theory[J]. Optoelectronic Technology, 2023, 43(1): 62

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    Paper Information

    Category: Technology and Measurement

    Received: Sep. 16, 2022

    Accepted: --

    Published Online: Apr. 14, 2023

    The Author Email:

    DOI:10.19453/j.cnki.1005-488x.2023.01.010

    Topics

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