基于光的几何自旋霍尔效应的空间微分运算与边缘检测

Spatial differential operation and edge detection based on the geometric spin Hall effect of light.

作者信息

He Shanshan, Zhou Junxiao, Chen Shizhen, Shu Weixing, Luo Hailu, Wen Shuangchun

出版信息

Opt Lett. 2020 Feb 15;45(4):877-880. doi: 10.1364/OL.386224.

PMID:32058494

Abstract

Unlike the conventional spin Hall effect of light (SHEL) originating from the light-matter interaction, the spin-dependent splitting in the geometric SHEL is purely a geometric effect and independent from the properties of matter. Here it is shown that the geometric SHEL is not only of fundamental theoretical interest in understanding the spin-orbit interaction of light, but also sheds light on important technological applications. This Letter describes the theoretical foundation and experimental realization of optical differential operation and one-dimensional edge detection based on the geometric SHEL.

摘要

与源于光与物质相互作用的传统光自旋霍尔效应（SHEL）不同，几何SHEL中的自旋相关分裂纯粹是一种几何效应，与物质属性无关。本文表明，几何SHEL不仅在理解光的自旋轨道相互作用方面具有重要的基础理论意义，而且对重要的技术应用也具有启示作用。本文描述了基于几何SHEL的光学微分运算和一维边缘检测的理论基础及实验实现。

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基于光的几何自旋霍尔效应的空间微分运算与边缘检测

Spatial differential operation and edge detection based on the geometric spin Hall effect of light.

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