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Selectively steering photon spin angular momentum via electron-induced optical spin Hall effect

Cheng Chi, Qiao Jiang, Zhixin Liu, Liheng Zheng, Meiling Jiang, Han Zhang, Feng Lin, Bo Shen, Zheyu Fang

2021Science Advances30 citationsDOIOpen Access PDF

Abstract

The development of the optical spin Hall effect (OSHE) realizes the splitting of different spin components, contributing to the manipulation of photon spin angular momentum that acts as the information carrier for quantum technology. However, OSHE with optical excitation lacks active control of photon angular momentum at deep subwavelength scale because of the optical diffraction limit. Here, we experimentally demonstrate a selective manipulation of photon spin angular momentum at a deep subwavelength scale via electron-induced OSHE in Au nanoantennas. The inversion of the OSHE radiation pattern is observed by angle-resolved cathodoluminescence polarimetry with the electron impact position shifting within 80 nm in a single antenna unit. By this selective steering of photon spin, we propose an information encoding with robustness, privacy, and high level of integration at a deep subwavelength scale for the future quantum applications.

Topics & Concepts

Spin (aerodynamics)PhysicsPhotonAngular momentumSpin Hall effectElectronCondensed matter physicsTotal angular momentum quantum numberSpin polarizationOpticsQuantum mechanicsThermodynamicsQuantum Information and CryptographyOrbital Angular Momentum in OpticsQuantum optics and atomic interactions
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