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Autore principale: Saito, Shinichi
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.14884
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author Saito, Shinichi
author_facet Saito, Shinichi
contents Skyrmions are topological quasi-particles characterised by local spin textures, which are considered to be robust against structural deformation. Néel and Bloch states are famous examples of skyrmions, which exhibit radical and chiral spin profiles, respectively. Here, we show a skyrmion can be continuously transformed to an antiskyrmion or various other forms of skymions through underlying symmetry of special unitary group of degree six, SU(6), for photons with spin and orbital angular momentum. We employ a Lie group theory for coherent photons to describe the SU(6) transformation and establish a relationship between the generator of rotation and its expectation values on a hypersphere of $\mathbb{S}^{35}$. We propose a simple experimental setup to control the SU(6) states in combinations with wave-plates and vortex lenses to realise the generalised Euler's formula physically in a Mach-Zehnder interferometer. We show skyrmionic states are described on higher-order Poincar'e spheres together with a recently proposed skyrmionic torus.
format Preprint
id arxiv_https___arxiv_org_abs_2503_14884
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Skyrmionic SU(6) structured light
Saito, Shinichi
Quantum Physics
Applied Physics
Optics
Skyrmions are topological quasi-particles characterised by local spin textures, which are considered to be robust against structural deformation. Néel and Bloch states are famous examples of skyrmions, which exhibit radical and chiral spin profiles, respectively. Here, we show a skyrmion can be continuously transformed to an antiskyrmion or various other forms of skymions through underlying symmetry of special unitary group of degree six, SU(6), for photons with spin and orbital angular momentum. We employ a Lie group theory for coherent photons to describe the SU(6) transformation and establish a relationship between the generator of rotation and its expectation values on a hypersphere of $\mathbb{S}^{35}$. We propose a simple experimental setup to control the SU(6) states in combinations with wave-plates and vortex lenses to realise the generalised Euler's formula physically in a Mach-Zehnder interferometer. We show skyrmionic states are described on higher-order Poincar'e spheres together with a recently proposed skyrmionic torus.
title Skyrmionic SU(6) structured light
topic Quantum Physics
Applied Physics
Optics
url https://arxiv.org/abs/2503.14884