Spatial symmetries in nonlocal multipolar metasurfaces

IF 20.6 1区 物理与天体物理 Q1 OPTICS
K. Achouri, V. Tiukuvaara, O. Martin
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引用次数: 1

Abstract

Abstract. We propose a framework that connects the spatial symmetries of a metasurface to its material parameter tensors and its scattering matrix. This provides a simple and universal way to effortlessly determine the properties of a metasurface scattering response, such as chirality or asymmetric transmission, and which of its effective material parameters should be taken into account in the prospect of a homogenization procedure. In contrast to existing techniques, this approach does not require any a priori knowledge of group theory or complicated numerical simulation schemes, hence making it fast, easy to use and accessible. Its working principle consists in recursively solving symmetry-invariance conditions that apply to dipolar and quadrupolar material parameters, which include nonlocal interactions, as well as the metasurface scattering matrix. The overall process thus only requires listing the spatial symmetries of the metasurface. Using the proposed framework, we demonstrate the existence of multipolar extrinsic chirality, which is a form of chiral response that is achieved in geometrically achiral structures sensitive to field gradients, even at normal incidence.
非局部多极超表面的空间对称性
摘要我们提出了一个框架,将元表面的空间对称性与其材料参数张量和散射矩阵联系起来。这提供了一种简单而通用的方法,可以毫不费力地确定超表面散射响应的性质,如手性或不对称透射,以及在均匀化过程中应考虑其有效材料参数中的哪一个。与现有技术相比,这种方法不需要任何群论或复杂数值模拟方案的先验知识,因此使其快速、易于使用和访问。其工作原理包括递归求解适用于偶极和四极材料参数的对称不变性条件,包括非局部相互作用以及元表面散射矩阵。因此,整个过程只需要列出元表面的空间对称性。使用所提出的框架,我们证明了多极非本征手性的存在,这是一种手性响应形式,在对场梯度敏感的几何非手性结构中实现,即使在正入射下也是如此。
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来源期刊
CiteScore
22.70
自引率
1.20%
发文量
49
审稿时长
18 weeks
期刊介绍: Advanced Photonics is a highly selective, open-access, international journal that publishes innovative research in all areas of optics and photonics, including fundamental and applied research. The journal publishes top-quality original papers, letters, and review articles, reflecting significant advances and breakthroughs in theoretical and experimental research and novel applications with considerable potential. The journal seeks high-quality, high-impact articles across the entire spectrum of optics, photonics, and related fields with specific emphasis on the following acceptance criteria: -New concepts in terms of fundamental research with great impact and significance -State-of-the-art technologies in terms of novel methods for important applications -Reviews of recent major advances and discoveries and state-of-the-art benchmarking. The journal also publishes news and commentaries highlighting scientific and technological discoveries, breakthroughs, and achievements in optics, photonics, and related fields.
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