Silicon nanoantenna mix arrays for a trifecta of quantum emitter enhancements

Z Dong, S Gorelik, R Paniagua-Dominguez, J Yik… - Nano Letters, 2021 - ACS Publications
Z Dong, S Gorelik, R Paniagua-Dominguez, J Yik, J Ho, F Tjiptoharsono, E Lassalle
Nano Letters, 2021ACS Publications
Dielectric nanostructures have demonstrated optical antenna effects due to Mie resonances.
Previous work has exhibited enhancements in absorption, emission rates and directionality
with practical limitations. In this paper, we present a Si mix antenna array to achieve a
trifecta enhancement of∼ 1200-fold with a Purcell factor of∼ 47. The antenna design
incorporates∼ 10 nm gaps, within which fluorescent molecules strongly absorb the pump
laser energy through a resonant mode. In the emission process, the antenna array increases …
Dielectric nanostructures have demonstrated optical antenna effects due to Mie resonances. Previous work has exhibited enhancements in absorption, emission rates and directionality with practical limitations. In this paper, we present a Si mix antenna array to achieve a trifecta enhancement of ∼1200-fold with a Purcell factor of ∼47. The antenna design incorporates ∼10 nm gaps, within which fluorescent molecules strongly absorb the pump laser energy through a resonant mode. In the emission process, the antenna array increases the radiative decay rates of the fluorescence molecules via a Purcell effect and provides directional emission through a separate mode. This work could lead to novel CMOS-compatible platforms to enhance fluorescence for biological and chemical applications.
ACS Publications
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