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Spin Angular Momentum of Guided Light Induced by Transverse Confinement and Intrinsic Helicity

Diego R. Abujetas, José A. Sánchez-Gil

2020ACS Photonics39 citationsDOIOpen Access PDF

Abstract

Spin and orbital angular momenta of light have been a subject of fundamental interest since long ago, classically associated with circular polarization and wave vector. In recent years, extraordinary spin angular momenta in structured electromagnetic waves have been investigated, mostly in subwavelength evanescent fields at the nanoscale. Here we present an in-depth theoretical analysis of the transverse spin density and related momentum induced by mode confinement inside waveguides, with alternating spin layers governed by guided mode spatial symmetry, different from and indeed richer than that in the evanescent region outside. Furthermore, hybrid guided modes with intrinsic helicity exhibit in addition longitudinal spin density. Such fundamental features are manifested through fascinating phenomenology relevant to spin–orbit coupling in nanophotonic waveguides. Thus, guided light intrinsically carrying a wealth of spin momenta holds promise of superb devices to control spin–orbit interaction within confined geometries throughout the electromagnetic spectra.

Topics & Concepts

PhysicsHelicityAngular momentumTransverse planeNanophotonicsSpin (aerodynamics)Polarization (electrochemistry)Angular momentum of lightCoupling (piping)Phenomenology (philosophy)Condensed matter physicsAngular momentum couplingQuantum electrodynamicsSpin polarizationElectromagnetic fieldOrbital angular momentum of lightElectromagnetic radiationCircular polarizationLight beamQuantum mechanicsSpin waveOpticsSpin engineeringOrbital motionEvanescent waveClassical mechanicsLight coneMomentum (technical analysis)Local density of statesMagnetic fieldOrbital Angular Momentum in OpticsPlasmonic and Surface Plasmon ResearchMechanical and Optical Resonators