作为在自由空间中传播的电磁斯格明子的超环形光脉冲。

Supertoroidal light pulses as electromagnetic skyrmions propagating in free space.

作者信息

Shen Yijie, Hou Yaonan, Papasimakis Nikitas, Zheludev Nikolay I

机构信息

Optoelectronics Research Centre, Centre for Photonic Metamaterials, University of Southampton, Southampton, SO17 1BJ, UK.

Centre for Disruptive Photonic Technologies, School of Physical and Mathematical Sciences and The Photonics Institute, Nanyang Technological University, Singapore, 637378, Singapore.

出版信息

Nat Commun. 2021 Oct 8;12(1):5891. doi: 10.1038/s41467-021-26037-w.

DOI:10.1038/s41467-021-26037-w

PMID:34625539

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8501108/

Abstract

Topological complex transient electromagnetic fields give access to nontrivial light-matter interactions and provide additional degrees of freedom for information transfer. An important example of such electromagnetic excitations are space-time non-separable single-cycle pulses of toroidal topology, the exact solutions of Maxwell's equations described by Hellwarth and Nouchi in 1996 and recently observed experimentally. Here we introduce an extended family of electromagnetic excitation, the supertoroidal electromagnetic pulses, in which the Hellwarth-Nouchi pulse is just the simplest member. The supertoroidal pulses exhibit skyrmionic structure of the electromagnetic fields, multiple singularities in the Poynting vector maps and fractal-like distributions of energy backflow. They are of interest for transient light-matter interactions, ultrafast optics, spectroscopy, and toroidal electrodynamics.

摘要

拓扑复瞬态电磁场可实现非平凡的光与物质相互作用，并为信息传递提供额外的自由度。此类电磁激发的一个重要例子是环形拓扑的时空不可分离单周期脉冲，它是1996年由赫尔沃思和野内描述的麦克斯韦方程组的精确解，最近已通过实验观测到。在此，我们引入了一类扩展的电磁激发——超环形电磁脉冲，其中赫尔沃思-野内脉冲只是最简单的成员。超环形脉冲展现出电磁场的斯格明子结构、坡印廷矢量图中的多个奇点以及类似分形的能量回流分布。它们在瞬态光与物质相互作用、超快光学、光谱学和环形电动力学等领域具有重要意义。

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作为在自由空间中传播的电磁斯格明子的超环形光脉冲。

Supertoroidal light pulses as electromagnetic skyrmions propagating in free space.

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