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Auteurs principaux: Merchiers, Olivier, Varpula, Aapo, Tappura, Kirsi, Chapuis, Pierre-Olivier, Prunnila, Mika
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2512.19192
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author Merchiers, Olivier
Varpula, Aapo
Tappura, Kirsi
Chapuis, Pierre-Olivier
Prunnila, Mika
author_facet Merchiers, Olivier
Varpula, Aapo
Tappura, Kirsi
Chapuis, Pierre-Olivier
Prunnila, Mika
contents Thermal-radiation detectors such as bolometers -- often found as thin, suspended films -- are intrinsically limited by their optical absorption properties and by their intrinsic thermal conductive and radiative losses. We analyze the impact of the photon energy exchange between the film and a substrate located close to each other, noticing that the associated near-field exchange has been overlooked and could reduce the detectivity. In addition, we study how the nanometric thickness of the suspended film and its material impact the detectivity of such sensors. It is found that the blackbody-related photon noise limit of the detectivity can be surpassed with thin films. These results emphasize pathways for improvements of thermal-radiation detectors.
format Preprint
id arxiv_https___arxiv_org_abs_2512_19192
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Far- and near-field photon noise limits to the detectivity of nanometer-thick thermal detectors
Merchiers, Olivier
Varpula, Aapo
Tappura, Kirsi
Chapuis, Pierre-Olivier
Prunnila, Mika
Optics
Thermal-radiation detectors such as bolometers -- often found as thin, suspended films -- are intrinsically limited by their optical absorption properties and by their intrinsic thermal conductive and radiative losses. We analyze the impact of the photon energy exchange between the film and a substrate located close to each other, noticing that the associated near-field exchange has been overlooked and could reduce the detectivity. In addition, we study how the nanometric thickness of the suspended film and its material impact the detectivity of such sensors. It is found that the blackbody-related photon noise limit of the detectivity can be surpassed with thin films. These results emphasize pathways for improvements of thermal-radiation detectors.
title Far- and near-field photon noise limits to the detectivity of nanometer-thick thermal detectors
topic Optics
url https://arxiv.org/abs/2512.19192