开尔文光束的手性

arXiv: Optics Pub Date : 2020-12-16 DOI:10.1103/PHYSREVA.103.L031501

S. Nechayev, J. Eismann, R. Alaee, E. Karimi, R. Boyd, P. Banzer

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引用次数: 11

摘要

几何手性是描述三维镜像对称违逆的物体的一种性质，因此它需要一个不消失的空间范围。相反，光手性只描述了电磁场的局部手性，而忽略了光束的空间几何结构。本文提出了光束空间结构几何手性的物理意义，我们称之为“开尔文手性”。此外，我们报告了一个实验，揭示了开尔文手性和光手性的耦合，聚焦光束通过平面介质的传输。我们的工作强调了开尔文手性在所有涉及具有空间非均匀相位和偏振分布的结构光束的光-物质相互作用实验中的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Kelvin's chirality of optical beams

Geometrical chirality is a property of objects that describes three-dimensional mirror-symmetry violation and therefore it requires a non-vanishing spatial extent. In contrary, optical chirality describes only the local handedness of electromagnetic fields and neglects the spatial geometrical structure of optical beams. In this manuscript, we put forward the physical significance of geometrical chirality of spatial structure of optical beams, which we term "Kelvin's chirality". Further, we report on an experiment revealing the coupling of Kelvin's chirality to optical chirality upon transmission of a focused beam through a planar medium. Our work emphasizes the importance of Kelvin's chirality in all light-matter interaction experiments involving structured light beams with spatially inhomogeneous phase and polarization distributions.

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arXiv: Optics

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