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Subwavelength dielectric resonators for nonlinear nanophotonics

Kirill Koshelev, Sergey Kruk, Elizaveta Melik-Gaykazyan, Jae-Hyuck Choi, Andrey Bogdanov, Hong‐Gyu Park, Yuri S. Kivshar

2020Science985 citationsDOIOpen Access PDF

Abstract

Subwavelength optical resonators made of high-index dielectric materials provide efficient ways to manipulate light at the nanoscale through mode interferences and enhancement of both electric and magnetic fields. Such Mie-resonant dielectric structures have low absorption, and their functionalities are limited predominantly by radiative losses. We implement a new physical mechanism for suppressing radiative losses of individual nanoscale resonators to engineer special modes with high quality factors: optical bound states in the continuum (BICs). We demonstrate that an individual subwavelength dielectric resonator hosting a BIC mode can boost nonlinear effects increasing second-harmonic generation efficiency. Our work suggests a route to use subwavelength high-index dielectric resonators for a strong enhancement of light-matter interactions with applications to nonlinear optics, nanoscale lasers, quantum photonics, and sensors.

Topics & Concepts

Lasing thresholdResonatorNanophotonicsLaser linewidthPhotonicsPhysicsSecond-harmonic generationBound stateResonance (particle physics)Nonlinear opticsOptoelectronicsPhotonic crystalNonlinear systemQ factorQuantum opticsOpticsQuantum mechanicsLaserPlasmonic and Surface Plasmon ResearchPhotonic and Optical DevicesPhotonic Crystals and Applications
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