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Kerker Condition for Enhancing Emission Rate and Directivity of Single Emitter Coupled to Dielectric Metasurfaces

Megha Khokhar, Faraz Ahmed Inam, Rajesh V. Nair

2022Advanced Optical Materials16 citationsDOI

Abstract

Abstract Metasurfaces have the ability to control classical and non‐classical states of light to achieve controlled emission even at the level of a single emitter. Here, the Kerker condition induced emission rate enhancement with strong directivity is unveiled from a single emitter integrated within a dielectric metasurface consisting of silicon nano‐disks. The simulation and analytical calculations attest the Kerker condition with unidirectional light scattering evolved by the constructive interference between electric dipole, toroidal dipole, and the magnetic quadrupole. The results evince spatially‐dependent enhanced local density of optical states, which reciprocates localized field intensity. The emission rate enhancement of 400 times is achieved close to the zero phonon line of the nitrogen‐vacancy center with superior emission directivity and collection efficiency. The results have implications in on‐demand single photon generation, spin‐photon interface, many‐body interactions, and strong coupling.

Topics & Concepts

Common emitterMaterials scienceDielectricDirectivityDipoleSpontaneous emissionMagnetic dipolePurcell effectPhotonicsPhotonOptoelectronicsOpticsSingle-photon sourcePhysicsLaserComputer scienceQuantum mechanicsAntenna (radio)TelecommunicationsMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon ResearchQuantum optics and atomic interactions
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