P‐4.21: Design and Fabrication of Short‐Focus Lenses Based on Pancharatnam‐Berry Optical Elements

A method for the design and fabrication of short‐focus liquid crystal Pancharatnam‐Berry lenses is demonstrated. With Electromagnetic modeling of dual‐twist lens by finite element method, the relationship between lens diffraction efficiency and f‐number is revealed. A fabrication light path of prepa...

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Veröffentlicht in:	SID International Symposium Digest of technical papers 2024-04, Vol.55 (S1), p.831-834
Hauptverfasser:	Pan, Xusheng, Weng, Yishi, Wei, Ran, Gu, Yuchen, Zhang, Yuning
Format:	Artikel
Sprache:	eng
Schlagworte:	Diffraction efficiency Finite element method Liquid crystal polymer Liquid crystals Microlenses near‐eye display Optical components Pancharatnam‐Berry phase optical elements polarization holography
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creator	Pan, Xusheng Weng, Yishi Wei, Ran Gu, Yuchen Zhang, Yuning
description	A method for the design and fabrication of short‐focus liquid crystal Pancharatnam‐Berry lenses is demonstrated. With Electromagnetic modeling of dual‐twist lens by finite element method, the relationship between lens diffraction efficiency and f‐number is revealed. A fabrication light path of preparing small f‐number and short‐focal lenses by polarization holography is proposed, and the small f‐number microlens array is prepared experimentally. Both simulation and experimental results are presented and discussed.
doi_str_mv	10.1002/sdtp.17214
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subjects	Diffraction efficiency Finite element method Liquid crystal polymer Liquid crystals Microlenses near‐eye display Optical components Pancharatnam‐Berry phase optical elements polarization holography
title	P‐4.21: Design and Fabrication of Short‐Focus Lenses Based on Pancharatnam‐Berry Optical Elements
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