Optical chirality of vortex beams at the nanoscale

Green Dale; Forbes Kayn A.

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Optical chirality of vortex beams at the nanoscale

机译：纳米尺度涡旋光束的光学手性

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In this work we undertake a systematic study of the optical chirality density of Laguerre-Gaussian and Bessel laser beams tightly focused into nanoscale volumes. In particular we highlight the unique contributions to optical chirality from longitudinal electromagnetic fields, i.e. light that is polarised in the direction of propagation. The influence that polarisation, spin and orbital angular momentum, radial index, degree of focusing, and diffraction has on the optical chirality is studied. The results show that the optical chirality of structured light beams at the nanoscale is significantly richer than that of the well-known circularly polarised propagating plane wave. The work lays the foundation for chiral nanophotonics, and chiral quantum optics based on structured light illumination.

机译：在这个工作我们进行系统的研究的手性光学密度拉盖尔-高斯激光束和贝塞尔紧集中在纳米卷。强调光的独特贡献手性从纵向电磁字段,即光中两极分化传播方向。两极分化,自旋和轨道角动量,径向指数、集中程度和衍射对光学手性进行了研究。结果表明,该光学的手性结构化的光束在纳米尺度上明显比著名的富有圆极化平面波传播。为手性工作奠定了基础纳米光子学,和手性量子光学结构光照明。

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来源
《Nanoscale》 |2023年第2期|540-552|共13页
作者
Green Dale; Forbes Kayn A.;
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作者单位

University of East Anglia;

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正文语种英语
中图分类分子物理学、原子物理学;
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Optical chirality of vortex beams at the nanoscale

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