All-dielectric Structure for Trapping Nanoparticles via Light Funneling and Nanofocusing
Amir M. Jazayeri, Khashayar Mehrany

TL;DR
This paper introduces a dielectric nanoantenna structure that significantly enhances optical trapping forces on nanoparticles by funneling and focusing light beyond the diffraction limit, achieving up to 10,000-fold force enhancement.
Contribution
The study presents a novel all-dielectric structure that acts as a nanoantenna to greatly improve optical trapping efficiency without relying on self-induced back-action trapping (SIBA).
Findings
Approximately 10,000-fold increase in trapping force.
80-fold enhancement in field intensity.
130-fold increase in normalized field gradient.
Abstract
We propose a dielectric structure which focuses the laser light well beyond the diffraction limit and thus considerably enhances the exerted optical trapping force upon dielectric nanoparticles. Although the structure supports a Fabry-Perot resonance, it actually acts as a nanoantenna in that the role of the resonance is to funnel the laser light into the structure. In comparison with the lens illuminating the structure, the proposed structure offers roughly a 10000-fold enhancement in the trapping force - part of this enhancement comes from an 80-fold enhancement in the field intensity, and the remaining comes from a 130-fold enhancement in the normalized gradient of the field intensity (viz. the gradient of the field intensity divided by the field intensity). Also, the proposed structure offers roughly a 100-fold enhancement in the depth of the trapping potential. It is noteworthy…
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