Optimal Design of Wide Angle Diffractive Optical Element and its Application in Eyepiece

Huiyan CHEN; Yuhao JIANG; Liangliang YANG; Chenglin LIU; Yongbing ZHAO

doi:10.19453/j.cnki.1005-488x.2023.04.012

Journals >Optoelectronic Technology >Volume 43 >Issue 4 >Page 347 > Article

Optoelectronic Technology
Vol. 43, Issue 4, 347 (2023)

Optimal Design of Wide Angle Diffractive Optical Element and its Application in Eyepiece

Huiyan CHEN, Yuhao JIANG, Liangliang YANG, Chenglin LIU, and Yongbing ZHAO

Author Affiliations

School of Physics and Electronics Engineering, Yancheng Teachers University, Yancheng Jiangsu 224007, CHN

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DOI: 10.19453/j.cnki.1005-488x.2023.04.012 Cite this Article

Huiyan CHEN, Yuhao JIANG, Liangliang YANG, Chenglin LIU, Yongbing ZHAO. Optimal Design of Wide Angle Diffractive Optical Element and its Application in Eyepiece[J]. Optoelectronic Technology, 2023, 43(4): 347 Copy Citation Text

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References

[1] Fannie Castignoles, Manuel Flury, Thierry Lepine. Comparison of the efficiency， MTF and chromatic properties of four diffractive bifocal intraocular lens designs[J]. Opt. Express, 18, 5245-5256(2010).

[3] David Fischer, Stefan Sinzinger. Multifocal multi-value phase zone plate for 3D focusing[J]. Appl. Opt., 58, 8943-8949(2019).

[4] Zhang Shuqing, Zhou Luyang, Xue Changxi et al. Design and simulation of a superposition compound eye system based on hybrid diffractive-refractive lenses[J]. Appl. Opt., 56, 7442-7449(2017).

[6] Yang Liangliang, Liu Chenglin, Li Shengqiang. Optimal design of depth-scaling error for multilayer diffractive optical elements with oblique incidence[J]. Applied Optics, 56, 4532-4536(2017).

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

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