基于液晶的衍射光栅效率

ADVANCES IN APPLIED PHYSICS Pub Date : 1900-01-01 DOI:10.51368/2307-4469-2021-9-2-144-152

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引用次数: 0

摘要

我们用全息法在二向色染料薄层上记录了几何相位衍射光栅。为了在可见光范围内实现电控衍射，组装了一种透射液晶单元。此外，利用电光效应建模软件，我们计算了基于LC的相位光栅的衍射效率(DE)作为电极电压幅值的函数，并计算了偏差作为LC电池厚度，LC材料双折射和辐射波长的函数。实验数据与计算结果定性吻合。单面相位光栅LC在532 nm处的1阶DE为16%。此外，我们还观察到随着辐射波长的增加，dep减小。

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Efficiency of diffraction gratings based on liquid crystals

Wehave recorded geometric-phase diffraction gratingusing the method of holography on a thin layer of dichroic dye. A transmission liquid crystal cell hasbeen assembled inorder to obtain electrically-controlled diffraction in visible range. Also, using software for electrooptical effects modeling wehavecalculated the diffraction efficiency (DE) of the LC-based phase grating as a function of the voltage amplitude at the electrodes,es-timatedtheDEvariation as a function of LCcell thickness, LC materialbirefringenceand the radiation wavelength. The experimental data qualitatively matched with calcu-lation results. 1-st order DE of16% (at 532 nm) has been obtainedforsingle-sided phase grating LC. Furthermore, we have observed the decrease ofDEwith the increase of radiation wavelength.

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ADVANCES IN APPLIED PHYSICS

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