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Arbitrary manipulations of focused higher-order Poincaré beams by a Fresnel zone metasurface with alternate binary geometric and propagation phases

Xiangyu Zeng, Yuqin Zhang, Manna Gu, Z. Zhan, Ruirui Zhang, Yu Zhang, Rui Sun, Changwei He, Chunxiang Liu, Chuanfu Cheng

2022Photonics Research19 citationsDOI

Abstract

The manipulation of high-quality vector beams (VBs) with metasurfaces is an important topic and has potential for classical and quantum applications. In this paper, we propose a Fresnel zone (FZ) metasurface with metallic nanoslits arranged on FZs, which sets alternate binary geometric and propagation phases to cancel the incident spin component and focus the converted spin component (CSC). The rotation designs of nanoslits transform the incident polarization state on the conventional Poincaré sphere to VBs on the higher-order Poincaré (HOP) sphere. The two orbital angular momentum states of the CSCs were manipulated, and the focused HOP beams were generated. The experimental results demonstrate the broadband generation of arbitrarily focused HOP beams of high quality under the illumination of the red (632.8 nm), green (532 nm), and blue (473 nm) light. This work will be of significance for the applications of VBs in different areas, such as precision metrology, optical micromanipulation, and quantum information.

Topics & Concepts

OpticsPhysicsBinary numberPolarization (electrochemistry)Angular momentumMetrologyQuantumFresnel equationsLight beamRefractive indexQuantum mechanicsMathematicsChemistryPhysical chemistryArithmeticOrbital Angular Momentum in OpticsMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface Technologies
Arbitrary manipulations of focused higher-order Poincaré beams by a Fresnel zone metasurface with alternate binary geometric and propagation phases | Litcius