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Autores principales: Arahari, Hideki, Konishi, Sota, Takaoka, Kodai, Akita, Seiji, Ishihara, Hajime
Formato: Preprint
Publicado: 2022
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Acceso en línea:https://arxiv.org/abs/2205.10856
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author Arahari, Hideki
Konishi, Sota
Takaoka, Kodai
Akita, Seiji
Ishihara, Hajime
author_facet Arahari, Hideki
Konishi, Sota
Takaoka, Kodai
Akita, Seiji
Ishihara, Hajime
contents We propose an optomechanical system utilizing luminescence-induced optical forces (LIOFs). Anisotropic dielectric structures enhance the recoil force from the luminescence. The optomechanical resonator consists of a composite film with a dielectric membrane, luminescent nanofilm, and a metallic substrate. The LIOF causes a mechanical frequency shift in the oscillator known as the optical spring effect. These results link the quantum properties of luminescent nanomaterials with those of other quantum-mechanical systems with vastly different frequency regimes via induced vibrational modes.
format Preprint
id arxiv_https___arxiv_org_abs_2205_10856
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Proposed optomechanical systems based on luminescence-induced optical forces
Arahari, Hideki
Konishi, Sota
Takaoka, Kodai
Akita, Seiji
Ishihara, Hajime
Optics
Computational Physics
We propose an optomechanical system utilizing luminescence-induced optical forces (LIOFs). Anisotropic dielectric structures enhance the recoil force from the luminescence. The optomechanical resonator consists of a composite film with a dielectric membrane, luminescent nanofilm, and a metallic substrate. The LIOF causes a mechanical frequency shift in the oscillator known as the optical spring effect. These results link the quantum properties of luminescent nanomaterials with those of other quantum-mechanical systems with vastly different frequency regimes via induced vibrational modes.
title Proposed optomechanical systems based on luminescence-induced optical forces
topic Optics
Computational Physics
url https://arxiv.org/abs/2205.10856