A curvilinear framework for vector light fields
Abstract
Vector beams are often regarded as non-separable superpositions of spatial and polarization degrees of freedom that satisfy the wave equation. This interpretation ties their polarization structure to their spatial shape. Here, we introduce a generalized method to construct vector beams whose structure is entirely encoded in the polarization degree of freedom. Using conformal maps, we construct orthonormal polarization bases from the geometry of the coordinates and encode them experimentally via phase-only spatial light modulators. We apply our method to four systems, elliptical, parabolic, bipolar, and dipole, that represent algebraic and transcendental families of conformal maps. Stokes polarimetry measurements confirm agreement with theoretical predictions.
Cite
@article{arxiv.2506.11407,
title = {A curvilinear framework for vector light fields},
author = {Leonardo S. Gonzalez-Aceves and Gabriela Flores-Cova and Blas M. Rodríguez-Lara and Raul I. Hernandez-Aranda and Alfonso Jaimes-Najera and Carmelo Rosales-Guzman and Benjamin Perez-Garcia},
journal= {arXiv preprint arXiv:2506.11407},
year = {2025}
}
Comments
21 pages, 6 figures