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Main Authors: Tago, Chihiro, Kakue, Takashi, Morita, Ken
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.09279
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author Tago, Chihiro
Kakue, Takashi
Morita, Ken
author_facet Tago, Chihiro
Kakue, Takashi
Morita, Ken
contents We propose a geometric hybrid Poincaré sphere (GHPS) as a unified geometrical framework for describing structured photon states with independently controllable spin angular momentum (SAM) and orbital angular momentum (OAM). Unlike the conventional higher-order Poincaré sphere, in which the SAM and OAM are intrinsically coupled through fixed basis states, the GHPS is constructed by defining its poles as direct products of arbitrary orthogonal bases on the Poincaré sphere (PS) and orbital Poincaré sphere (OPS) and by superposing these pole states. Using numerical simulations, we analyze representative GHPS states and show that the GHPS spherical coordinates govern the amplitude ratio and relative phase between the pole bases. This framework enables spatially inhomogeneous polarization distributions and intensity patterns, including nonseparable structures in which polarization and intensity are intrinsically intertwined, and provides a systematic state-space description for the coherent geometrical control of advanced structured light fields.
format Preprint
id arxiv_https___arxiv_org_abs_2601_09279
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Geometric Hybrid Poincaré Sphere with Variable Poles
Tago, Chihiro
Kakue, Takashi
Morita, Ken
Quantum Physics
We propose a geometric hybrid Poincaré sphere (GHPS) as a unified geometrical framework for describing structured photon states with independently controllable spin angular momentum (SAM) and orbital angular momentum (OAM). Unlike the conventional higher-order Poincaré sphere, in which the SAM and OAM are intrinsically coupled through fixed basis states, the GHPS is constructed by defining its poles as direct products of arbitrary orthogonal bases on the Poincaré sphere (PS) and orbital Poincaré sphere (OPS) and by superposing these pole states. Using numerical simulations, we analyze representative GHPS states and show that the GHPS spherical coordinates govern the amplitude ratio and relative phase between the pole bases. This framework enables spatially inhomogeneous polarization distributions and intensity patterns, including nonseparable structures in which polarization and intensity are intrinsically intertwined, and provides a systematic state-space description for the coherent geometrical control of advanced structured light fields.
title Geometric Hybrid Poincaré Sphere with Variable Poles
topic Quantum Physics
url https://arxiv.org/abs/2601.09279