Metal-Dielectric-Enhanced Upconversion: Going "Meso"
Abstract
A novel concept of a mesocavity, based on a simple yet counter-intuitive idea of covering metal nanoparticles with unusually thick ( 100 nm) high-index dielectric shells, is demonstrated in technologically relevant and largely sought-after case of an upconversion (UC) enhancement. For readily available combinations of materials and geometrical parameters of metal-dielectric core-shell mesocavity, record high values of UC enhancement of 106 can be achieved on the cavity surface. For emitter inside the high-index dielectric shell with refractive index n=2.7, the Lorentz local-field correction can provide an additional enhancement factor for UC of ≈ 92, resulting in UC enhancement of 108, which is three orders of magnitude larger than it has ever been reported for individual particles. Our mesocavity concept facilitates a beneficial synergy of plasmonic and whispering gallery-mode resonance functionalities within an intermediary region between nanoscale ( 100 nm) and microscale ( 1 μm).
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