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Optimization of nanofiber gratings for efficient single-photon collection

Subrat Sahu, K. P. Nayak, Rajan Jha

2022Journal of Optics20 citationsDOIOpen Access PDF

Abstract

Abstract We report on a simulation of a nanophotonic cavity constructed by designing periodic holes on an optical nanofiber to realize light–matter interaction. The cavity is designed using finite-difference time-domain simulations to maximize the coupling of spontaneous emission from a quantum emitter into fiber-guided modes. We systematically analyze the dependence of spontaneous emission on the quantum emitter position, polarization, and the grating strength (number of periods). We show that coupling efficiencies as high as 87% and 83% can be realized for a dipole emitter placed at the center of the nanofiber with polarization perpendicular ( x -pol) and parallel ( y -pol) to the hole-axis, respectively. This system may attract various quantum photonic applications based on single-photon sources.

Topics & Concepts

Common emitterPhotonFinite-difference time-domain methodSpontaneous emissionPhysicsOpticsPerpendicularPolarization (electrochemistry)GratingOptoelectronicsQuantum opticsSingle-photon sourcePhotonicsNanofiberQuantumNanophotonicsMaterials scienceQuantum mechanicsLaserNanotechnologyChemistryPhysical chemistryGeometryMathematicsPhotonic and Optical DevicesQuantum Information and CryptographyPlasmonic and Surface Plasmon Research
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