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Main Authors: Permana, Dharma P., Sinkevičienė, Mazena Mackoit, Ruseckas, Julius, Hamedi, Hamid R.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.17406
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_version_ 1866917383411597312
author Permana, Dharma P.
Sinkevičienė, Mazena Mackoit
Ruseckas, Julius
Hamedi, Hamid R.
author_facet Permana, Dharma P.
Sinkevičienė, Mazena Mackoit
Ruseckas, Julius
Hamedi, Hamid R.
contents We investigate the propagation of an optical vector vortex weakly interacting with a coherently prepared atomic medium (phaseonium) in a three-level $Λ$ configuration. The vector beam consists of vortex pulse pairs with right- and left-circular polarizations, corresponding to opposite spin angular momentum (SAM), and carrying opposite orbital angular momentum (OAM) charges $\pm l$. We show that during the propagation of the vortex pairs, analytically obtained in the linear regime, the medium inherits the topology of the vortex pair, mapping the OAM onto a spatially structured atomic coherence. This mapping produces $2|l|-$fold azimuthal transparency structures that reshape the beam intensity from a ring into a petal-like pattern. The OAM-structured atomic coherence induces a corresponding optical anisotropy within the medium, which feeds back into the propagating vector beam, resulting in optical spin-orbit coupling manifested as SAM exchange, rotation, and evolution of polarization textures. Depending on the initial ground-state population of the phaseonium, the polarization state evolves between left-circular, linear, and right-circular polarizations.
format Preprint
id arxiv_https___arxiv_org_abs_2511_17406
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Spin-orbit coupling of optical vector vortices in coherently prepared media
Permana, Dharma P.
Sinkevičienė, Mazena Mackoit
Ruseckas, Julius
Hamedi, Hamid R.
Quantum Physics
We investigate the propagation of an optical vector vortex weakly interacting with a coherently prepared atomic medium (phaseonium) in a three-level $Λ$ configuration. The vector beam consists of vortex pulse pairs with right- and left-circular polarizations, corresponding to opposite spin angular momentum (SAM), and carrying opposite orbital angular momentum (OAM) charges $\pm l$. We show that during the propagation of the vortex pairs, analytically obtained in the linear regime, the medium inherits the topology of the vortex pair, mapping the OAM onto a spatially structured atomic coherence. This mapping produces $2|l|-$fold azimuthal transparency structures that reshape the beam intensity from a ring into a petal-like pattern. The OAM-structured atomic coherence induces a corresponding optical anisotropy within the medium, which feeds back into the propagating vector beam, resulting in optical spin-orbit coupling manifested as SAM exchange, rotation, and evolution of polarization textures. Depending on the initial ground-state population of the phaseonium, the polarization state evolves between left-circular, linear, and right-circular polarizations.
title Spin-orbit coupling of optical vector vortices in coherently prepared media
topic Quantum Physics
url https://arxiv.org/abs/2511.17406