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Auteurs principaux: Lin, Wei, Ding, Yechun, Wang, Yongsheng, Zhang, Yanpeng, Yun, Feng, Li, Feng
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2401.09303
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author Lin, Wei
Ding, Yechun
Wang, Yongsheng
Zhang, Yanpeng
Yun, Feng
Li, Feng
author_facet Lin, Wei
Ding, Yechun
Wang, Yongsheng
Zhang, Yanpeng
Yun, Feng
Li, Feng
contents Microcavity photon dynamics in curved space is an emerging interesting area at the crossing point of nanophotonics, chaotic science and non-Euclidean geometry. We report the sharp difference between the regular and chaotic motions of cavity photons subjected to the varying space curvature. While the island modes of regular motion rise in the phase diagram in the curved space, the chaotic modes show special mechanisms to adapt to the space curvature, including the fast diffusion of ray dynamics, and the localization and hybridization of the Husimi wavepackets among different periodic orbits. These obser-vations are unique effects enabled by the combination of the chaotic trajectory, the wave nature of light and the non-Euclidean orbital motion, and therefore make the system a versatile optical simulator for chaotic science under quan-tum mechanics in curved space-time.
format Preprint
id arxiv_https___arxiv_org_abs_2401_09303
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Tailoring chaotic motion of microcavity photons in ray and wave dynamics by tuning the curvature of space
Lin, Wei
Ding, Yechun
Wang, Yongsheng
Zhang, Yanpeng
Yun, Feng
Li, Feng
Optics
Microcavity photon dynamics in curved space is an emerging interesting area at the crossing point of nanophotonics, chaotic science and non-Euclidean geometry. We report the sharp difference between the regular and chaotic motions of cavity photons subjected to the varying space curvature. While the island modes of regular motion rise in the phase diagram in the curved space, the chaotic modes show special mechanisms to adapt to the space curvature, including the fast diffusion of ray dynamics, and the localization and hybridization of the Husimi wavepackets among different periodic orbits. These obser-vations are unique effects enabled by the combination of the chaotic trajectory, the wave nature of light and the non-Euclidean orbital motion, and therefore make the system a versatile optical simulator for chaotic science under quan-tum mechanics in curved space-time.
title Tailoring chaotic motion of microcavity photons in ray and wave dynamics by tuning the curvature of space
topic Optics
url https://arxiv.org/abs/2401.09303