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Reversible lateral optical force on phase-gradient metasurfaces for full control of metavehicles

Tianyue Li, Jack J. Kingsley-Smith, Yanhui Hu, Xiaohao Xu, Shaohui Yan, Shuming Wang, Baoli Yao, Zhenlin Wang, Shining Zhu

2022Optics Letters55 citationsDOIOpen Access PDF

Abstract

Photonics is currently undergoing an era of miniaturization thanks in part to two-dimensional (2D) optical metasurfaces. Their ability to sculpt and redirect optical momentum can give rise to an optical force, which acts orthogonally to the direction of light propagation. Powered by a single unfocused light beam, these lateral optical forces (LOFs) can be used to drive advanced metavehicles and are controlled via the incident beam's polarization. However, the full control of a metavehicle on a 2D plane (i.e. forward, backward, left, and right) with a sign-switchable LOF remains a challenge. Here we present a phase-gradient metasurface route for achieving such full control while also increasing efficiency. The proposed metasurface is able to deflect a normally incident plane wave in a traverse direction by modulating the plane wave's polarization, and results in a sign-switchable recoil LOF. When applied to a metavehicle, this LOF enables a level of motion control that was previously unobtainable.

Topics & Concepts

OpticsPhase controlPhase (matter)Optical forceRefractive indexPhase modulationMaterials sciencePhysicsOptical tweezersPhase noiseQuantum mechanicsMetamaterials and Metasurfaces ApplicationsOrbital Angular Momentum in OpticsMicro and Nano Robotics
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