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Giant photonic spin Hall effect near the Dirac points

Wenhao Xu, Qiang Yang, Guangzhou Ye, Weijie Wu, Wenshuai Zhang, Hailu Luo, Shuangchun Wen

2020Physical review. A/Physical review, A35 citationsDOIOpen Access PDF

Abstract

The origin of spin-orbit interaction of light at a conventional optical interface lies in the transverse nature of the photon polarization: The polarizations associated with the plane-wave components experience slightly different rotations in order to satisfy the transversality after reflection or refraction. Recent advances in topological photonic materials provide crucial opportunities to reexamine the spin-orbit interaction of light at the unique optical interface. Here, we establish a general model to describe the spin-orbit interaction of light in the photonic Dirac metacrystal. We find a giant photonic spin Hall effect near the Dirac points when a Gaussian beam impinges at the interface of the photonic Dirac metacrystal. The giant photonic spin Hall effect is attributed to the strong spin-orbit interaction of light, which manifests itself as the large-polarization rotations of different plane-wave components. We believe that these results may provide insight into the fundamental properties of the spin-orbit interaction of light in topological photonic systems.

Topics & Concepts

Spin Hall effectPhotonicsPhysicsPolarization (electrochemistry)Photon polarizationPhotonSpin–orbit interactionPhotonic crystalSpin polarizationCondensed matter physicsOpticsQuantum mechanicsElectronPhysical chemistryChemistryTopological Materials and PhenomenaQuantum optics and atomic interactionsPhotonic Crystals and Applications
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