微分器
光子学
光学
物理
自旋霍尔效应
极化(电化学)
布鲁斯特角
光电子学
布鲁斯特
自旋极化
带宽(计算)
电信
计算机科学
电子
量子力学
物理化学
化学
作者
Chengquan Mi,Wanye Song,Xiang Cai,Chunxia Yang,Yujun Song,Xianwu Mi
出处
期刊:Optics Express
[Optica Publishing Group]
日期:2020-09-15
卷期号:28 (20): 30222-30222
被引量:44
摘要
Optical differential operation and image edge detection have shown some unique advantages, including faster operating speeds and lower power consumption, compared to a digital image processor. Here, we examine the origin of optical differentiator in the photonic spin Hall effect. We find that the optical differentiator in x direction is related to the beam divergence when the incident angle of the central wave vector meets Brewster's, while the optical differentiator in y direction is related to the cross polarization component. By eliminating the H-H or V-V polarization component, the H-V or V-H polarization component induced the spin-dependent splitting in the photonic spin Hall effect, which can be used for the one-dimensional optical differentiator in an arbitrary direction. Furthermore, we investigate the photonic spin Hall effect and double-peak profile near Brewster angle and predict that a perfect two-dimensional optical differentiator will become a reality.
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