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Exotic Photonic Spin Hall Effect from a Chiral Interface

Lijuan Sheng, Xinxing Zhou, Yuhan Zhong, Xinyan Zhang, Yu Chen, Zhiyou Zhang, Hongsheng Chen, Xiao Lin

2022Laser & Photonics Review43 citationsDOI

Abstract

Abstract The photonic spin Hall effect provides a quantitative way to characterize the spin–orbit interaction of light and enables many applications, such as the precise metrology, since this effect is featured with a spin‐dependent transverse shift of the light beam. This transverse shift is generally nonzero during the reflection/transmission process, and it is sensitive to the polarization and the incident angle of the light beam. By contrast, here it is revealed that for the transmitted light, the transverse shift can be always zero and polarization‐independent , irrespective of the incident angle. The underlying mechanism is that the conversion between the spin and orbit angular momenta of light is fully suppressed during the transmission process. Such an exotic photonic spin Hall effect occurs, if , , and , where t stands for the transmission coefficient and its first (second) superscript represents the polarization of the transmitted (incident) light, and () is the transmitted (incident) angle. These transmission conditions are achievable, e.g., by exploiting an interface only with a chiral surface conductivity. Similarly, a polarization‐independent photonic spin Hall effect is revealed for the reflected light.

Topics & Concepts

Spin Hall effectPhysicsPolarization (electrochemistry)PhotonicsTransverse planeOpticsTotal internal reflectionTransmission coefficientRayLight beamSpin (aerodynamics)Circular polarizationSpin polarizationPhotonic crystalCondensed matter physicsTransmission (telecommunications)OptoelectronicsElectronQuantum mechanicsChemistryPhysical chemistryMicrostripStructural engineeringThermodynamicsEngineeringElectrical engineeringQuantum optics and atomic interactionsOrbital Angular Momentum in OpticsNeural Networks and Reservoir Computing
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