Litcius/Paper detail

Flexible and Independent Control of Asymmetric Vortex Beams Based on Spin Multiplexing all Dielectric Metasurface

Qingyu Wang, Chenxia Li, Bo Fang, Lan Ke, Jianxun Lu, Xiaoli Ma, Zhi Hong, X. M. Jing

2023Journal of Lightwave Technology51 citationsDOI

Abstract

Vortex beams carrying orbital angular momentum have important applications in optical communication, particle manipulation and quantum information. Vortex beams have multiplexed communication capabilities. Here, at the terahertz band, we propose a spin-multiplexed all-dielectric metasurface that combines vortex phase and encoding sequences. The metasurface can generate asymmetric vortex light with different topological charges under the condition of orthogonal circularly polarized light. Moreover, the flexible manipulation of the deflection angle of the vortex beam can be realized by changing the coding sequence. Meanwhile, the superposition of multifunctional coding sequences can also generate vortex beams with different states. Additionally, the focusing properties of the spin-multiplexed deflected vortex beam were analyzed. This work provides a new method for micro-nano integrated optics to generate deflected vortex light, which can be applied in data communication, micro-manipulation and other fields.

Topics & Concepts

Optical vortexMultiplexingPhysicsVortexOpticsAngular momentumSuperposition principleLight beamTopological quantum numberOptical communicationOrbital angular momentum multiplexingDeflection (physics)Beam (structure)Quantum mechanicsOrbital angular momentum of lightTotal angular momentum quantum numberEngineeringElectronic engineeringThermodynamicsMetamaterials and Metasurfaces ApplicationsOrbital Angular Momentum in OpticsPlasmonic and Surface Plasmon Research