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Bibliographic Details
Main Authors: Gao, Bo, Gersen, Henkjan, Hanna, Simon
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.18550
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author Gao, Bo
Gersen, Henkjan
Hanna, Simon
author_facet Gao, Bo
Gersen, Henkjan
Hanna, Simon
contents This computational study investigates lateral optical forces in asymmetric dielectric nanostructures, focusing on their connection to resonant light-matter interactions. We examine isosceles triangular motifs that exhibit two distinct types of optical force response under plane wave illumination. Through parameter-space analysis, we identify stable zones where optical forces remain consistent and switching bands where forces change abruptly as parameters are altered. The observed force spectra show characteristic asymmetric lineshapes, suggesting Fano-resonance behavior. Eigenfrequency analysis confirms these effects arise from interference between discrete eigenmodes and continuum propagation states, with the eigenmode Q-factors correlating with transition sharpness. These findings provide insights into how structural geometry influences optical forces through resonant effects, offering guidance for designing optically-driven systems where controlled optical force responses are desired.
format Preprint
id arxiv_https___arxiv_org_abs_2601_18550
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle An exploration of lateral optical forces from a triangular periodic motif
Gao, Bo
Gersen, Henkjan
Hanna, Simon
Optics
Computational Physics
This computational study investigates lateral optical forces in asymmetric dielectric nanostructures, focusing on their connection to resonant light-matter interactions. We examine isosceles triangular motifs that exhibit two distinct types of optical force response under plane wave illumination. Through parameter-space analysis, we identify stable zones where optical forces remain consistent and switching bands where forces change abruptly as parameters are altered. The observed force spectra show characteristic asymmetric lineshapes, suggesting Fano-resonance behavior. Eigenfrequency analysis confirms these effects arise from interference between discrete eigenmodes and continuum propagation states, with the eigenmode Q-factors correlating with transition sharpness. These findings provide insights into how structural geometry influences optical forces through resonant effects, offering guidance for designing optically-driven systems where controlled optical force responses are desired.
title An exploration of lateral optical forces from a triangular periodic motif
topic Optics
Computational Physics
url https://arxiv.org/abs/2601.18550