Topological Harmonic Generation of Nonlinear Optical Skyrmions

Topological Harmonic Generation of Nonlinear Optical Skyrmions

Skyrmions are quasi-particles with a topologically stable structure, having widespread relevance in fields like condensed matter physics, plasmonics, and photonics. Initially proposed to describe baryons and atomic nuclei, they have since been extensively studied in spintronic devices for their uniq...

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Bibliographic Details
Main Authors: Zijian Lyu, Jingze Li, Peizeng Li, Yiqi Fang, Yunquan Liu
Format: Article
Language:English
Published: American Association for the Advancement of Science (AAAS) 2025-01-01
Series:Ultrafast Science
Online Access:https://spj.science.org/doi/10.34133/ultrafastscience.0104
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Summary:Skyrmions are quasi-particles with a topologically stable structure, having widespread relevance in fields like condensed matter physics, plasmonics, and photonics. Initially proposed to describe baryons and atomic nuclei, they have since been extensively studied in spintronic devices for their unique magnetic properties. Recently, the exploration of optical skyrmions generation and their interaction of matters has attracted wide interest in optics and photonics. Previous studies have been mostly limited in the linear optical regime. The nonlinear interaction and topological transformation of optical skyrmions with matters has not been well explored. In this work, we report the second and third nonlinear harmonic generation driven by optical skyrmions by interacting with crystals possessing different rotational symmetries. We demonstrate the nonlinear transformation of optical skyrmions with different topological charges in solids. The nonlinear optical harmonic skyrmions are formed with coherent superpositions of higher-order skyrmions, allowing conversions between skyrmions and anti-skyrmions. A quantum urn model is introduced to explain the generation of low-order and high-order harmonic skyrmions. This work presents the nonlinear interaction of the topological light fields with crystalline symmetry and provides novel insights into the efficient generation and robust control of the harmonics of skyrmions. It has implications on the application of secure communication, precise metrology, and quantum information.
ISSN:2765-8791

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