Investigation of polarization transformations performed with a refractive bi-conical axicon using the FDTD method

IF 1.1 Q4 OPTICS Computer Optics Pub Date : 2023-10-01 DOI:10.18287/2412-6179-co-1326
P.A. Khorin, A.M. Algubili, S.A. Degtyarev, S.K. Sergunin, S.V. Karpeev, None S.N. Khonina 1,2
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Abstract

We investigate polarization transformations carried out with a refractive bi-conical axicon using the FDTD method. The approach is based on the transformation of a circularly polarized optical beam into an azimuthally polarized beam due to the use of a single refractive element with two conical surfaces. On the inner surface of the element, polarization conversion occurs due to the reflection and refraction of rays at the Brewster angle, while the outer surface operates as a converted beam collimator. The distributions of the components of the electric field vector and the polarization vector at different distances from the optical element are considered as criteria for a successful polarization transformation. By numerical simulation of the performance of a bi-conical axicon made of glass with a refractive index of n = 1.4958, the efficiency of the proposed approach for a circularly polarized Gaussian beam with a wavelength of λ = 1.5 µm is shown. The proposed element is shown to be immune to chromatic aberrations in a significant range of changes in the refractive index of the element material and incident wavelengths (1.5 ≤ n ≤ 1.7; 1 μm ≤ λ ≤ 1.5 μm).
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用时域有限差分法研究折射率双锥轴的偏振变换
我们用时域有限差分法研究了折射率双锥轴的偏振变换。该方法是基于圆偏振光束转化为方位角偏振光束,由于使用一个单一的折射率元件与两个锥形表面。在元件的内表面,由于光线在布鲁斯特角的反射和折射而发生偏振转换,而外表面则作为转换光束准直器。电场矢量分量和偏振矢量分量在离光学元件不同距离处的分布被认为是偏振变换成功的标准。通过对折射率为n = 1.4958的双锥玻璃轴的性能进行数值模拟,证明了该方法对于波长为λ = 1.5µm的圆偏振高斯光束的效率。所提出的元件被证明在元件材料的折射率和入射波长(1.5≤n≤1.7;λ≤1.5 μm)。
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来源期刊
Computer Optics
Computer Optics OPTICS-
CiteScore
4.20
自引率
10.00%
发文量
73
审稿时长
9 weeks
期刊介绍: The journal is intended for researchers and specialists active in the following research areas: Diffractive Optics; Information Optical Technology; Nanophotonics and Optics of Nanostructures; Image Analysis & Understanding; Information Coding & Security; Earth Remote Sensing Technologies; Hyperspectral Data Analysis; Numerical Methods for Optics and Image Processing; Intelligent Video Analysis. The journal "Computer Optics" has been published since 1987. Published 6 issues per year.
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