关于陀螺仪电介质板表现出的最大左右反射率不对称性

IF 1.1 Q3 PHYSICS, MULTIDISCIPLINARY

Journal of Physics Communications Pub Date : 2024-01-19 DOI:10.1088/2399-6528/ad1dc7

Tom G Mackay, Akhlesh Lakhtakia

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引用次数: 0

摘要

陀螺电介质材料是洛伦兹非互易材料，在科学和技术上表现出有趣的反射不对称现象。在对陀螺电介质板的线性反射率的左右不对称进行数值表征时，我们发现这些不对称对以下因素非常敏感：(i) 回旋介电材料的构成参数，(ii) 板的厚度，(iii) 入射方向，以及 (iv) 板上下各向同性介电材料的折射率。特别是，当(i) 陀螺电介质材料中的耗散减少，(ii) 该材料相对介电常数二重性的反对称分量增加时，左/右反射率不对称现象就会增加。一般来说，交叉偏振左/右反射率不对称比共偏振左/右反射率不对称小一个数量级。

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On maximum left/right reflectance asymmetry exhibited by a gyrotropic dielectric slab

Gyrotropic dielectric materials, being Lorentz non-reciprocal, exhibit scientifically and technologically interesting reflection asymmetries. On numerically characterizing left/right asymmetries in linear reflectances exhibited by a gyrotropic dielectric slab, we found these asymmetries to be highly sensitive to: (i) the constitutive parameters of the gyrotropic dielectric material, (ii) the thickness of the slab, (iii) the direction of incidence, and (iv) the refractive indexes of the isotropic dielectric materials above and below the slab. In particular, left/right reflectance asymmetries increase as (i) dissipation in the gyrotropic dielectric material decreases and (ii) the anti-symmetric component of the relative permittivity dyadic of that material increases. Generally, the cross-polarized left/right reflectance asymmetry is an order of magnitude smaller than the co-polarized left/right reflectance asymmetries.

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