非线性元表面中手性谐波产生和频率混合的散射矩阵

IF 2 4区 物理与天体物理 Q3 OPTICS
Kirill Koshelev, Ivan Toftul, Yongsop Hwang, Yuri Kivshar
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引用次数: 0

摘要

我们将光学散射矩阵(S-matrix)的概念加以推广,以描述在未耗尽泵近似极限下平面元表面的谐波产生和频率混合。我们表明,这种非线性 S 矩阵的对称特性是由宏观和微观尺度上的元表面对称性决定的。我们证明,在描述光谐波产生等退化混频过程时,可以用缩小的二维 S 矩阵代替多维 S 矩阵。我们证明,对于具有特定点群对称性的元表面,决定缩减非线性 S 矩阵变换的选择规则被大大简化,并能以紧凑的形式表达。我们运用所开发的方法分析了具有各种对称性(包括旋转对称性、反转对称性、面内镜像对称性和面外镜像对称性)的非线性元表面中手性谐波的产生。对于每种对称性,我们都通过全波数值计算证实了所开发的分析结果。我们相信,我们的研究成果为元表面的非线性光学特性工程学提供了一种新的范式,它可能会在有源和非线性光学、生物传感和量子信息处理中得到应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Scattering matrix for chiral harmonic generation and frequency mixing in nonlinear metasurfaces
We generalize the concept of optical scattering matrix (S-matrix) to characterize harmonic generation and frequency mixing in planar metasurfaces in the limit of undepleted pump approximation. We show that the symmetry properties of such nonlinear S-matrix are determined by the metasurface symmetries at the macroscopic and microscopic scale. We demonstrate that for description of degenerate frequency mixing processes such as optical harmonic generation, the multidimensional S-matrix can be replaced with a reduced two-dimensional S-matrix. We show that for metasurfaces possessing specific point group symmetries, the selection rules determining the transformation of the reduced nonlinear S-matrix are simplified substantially and can be expressed in a compact form. We apply the developed approach to analyze chiral harmonic generation in nonlinear metasurfaces with various symmetries including rotational, inversion, in-plane mirror, and out-of-plane mirror symmetries. For each of those symmetries, we confirm the results of the developed analysis by full-wave numerical calculations. We believe our results provide a new paradigm for engineering nonlinear optical properties of metasurfaces which may find applications in active and nonlinear optics, biosensing, and quantum information processing.
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来源期刊
CiteScore
4.50
自引率
4.80%
发文量
237
审稿时长
1.9 months
期刊介绍: Journal of Optics publishes new experimental and theoretical research across all areas of pure and applied optics, both modern and classical. Research areas are categorised as: Nanophotonics and plasmonics Metamaterials and structured photonic materials Quantum photonics Biophotonics Light-matter interactions Nonlinear and ultrafast optics Propagation, diffraction and scattering Optical communication Integrated optics Photovoltaics and energy harvesting We discourage incremental advances, purely numerical simulations without any validation, or research without a strong optics advance, e.g. computer algorithms applied to optical and imaging processes, equipment designs or material fabrication.
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