Litcius/Paper detail

Azimuthally-variant perfect vector beams for the control of arbitrary phase and polarization ring patterns

Andrea Vogliardi, Gianluca Ruffato, Daniele Bonaldo, Simone Dal Zilio, Filippo Romanato

2025Light Science & Applications18 citationsDOIOpen Access PDF

Abstract

Perfect vortices, recognized for their distinct ring profile that remains independent of the topological charge, present significant challenges in generation due to the precise control needed over both phase and polarization. In this work, we introduce and validate a new approach for generating these beams, allowing the selection of different azimuthally-variant phase gradients and vector states, thereby enabling full control over the phase and polarization patterns of perfect vortices. Using dual-functional silicon metaoptics, we achieve the compact generation of a novel class of perfect vortices, termed azimuthally-variant perfect vector beams. The optical characterization of the generated beams, performed through a filtering method, confirms their intrinsic azimuthally-variant vectorial nature. These beams exhibit unique properties that promise valuable applications in optical tweezing, the manipulation of low-refractive-index particles, the trapping of cold atoms, and high-capacity communications.

Topics & Concepts

Polarization (electrochemistry)PhysicsOptical vortexVortexOptical tweezersOpticsTopological quantum numberTopology (electrical circuits)Refractive indexTrappingPhase (matter)Quantum mechanicsBeam (structure)BiologyPhysical chemistryEcologyCombinatoricsChemistryThermodynamicsMathematicsOrbital Angular Momentum in OpticsMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon Research