Vector vortices in phaseonium map OAM to atomic coherence, inducing spin-orbit coupling and polarization changes via feedback anisotropy.
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In a coherently prepared tripod atomic medium, slow-light vector vortices with opposite OAM charges map orbital angular momentum to the atoms, exhibit tunable periodic polarization evolution, and transform intensity from ring to petal structures under control-field influence.
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Spin-orbit coupling of optical vector vortices in coherently prepared media
Vector vortices in phaseonium map OAM to atomic coherence, inducing spin-orbit coupling and polarization changes via feedback anisotropy.
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Propagation of optical vector vortices of slow light in a coherently prepared tripod configuration
In a coherently prepared tripod atomic medium, slow-light vector vortices with opposite OAM charges map orbital angular momentum to the atoms, exhibit tunable periodic polarization evolution, and transform intensity from ring to petal structures under control-field influence.