Thermal Characterization of Absorbing Coatings for Thermal Detectors of   Radiation by Photopyroelectric Method

Svetlana L. Bravina; Nicholas V. Morozovsky; Galina I. Dovbeshko and; Elena D. Obraztsova

arXiv:cond-mat/0603529·cond-mat.mtrl-sci·May 23, 2007

Thermal Characterization of Absorbing Coatings for Thermal Detectors of Radiation by Photopyroelectric Method

Svetlana L. Bravina, Nicholas V. Morozovsky, Galina I. Dovbeshko and, Elena D. Obraztsova

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TL;DR

This paper compares the thermal diffusivity of various black absorbing coatings for pyroelectric radiation detectors using a photothermomodulation method, highlighting the potential of carbon nanotubes for improved detector performance.

Contribution

It introduces a comparative study of different black coatings, including novel carbon nanotubes, for enhancing pyroelectric detector sensitivity.

Findings

01

Carbon nanotubes coatings show promising thermal properties.

02

Photothermomodulation method effectively characterizes coating diffusivity.

03

Potential applications in advanced thermal detectors.

Abstract

By photothermomodulatoin method the comparative study of thermal diffusivity of absorbing coating for sensitive elements of pyroelectric detectors of radiation formed from metal dispersion layer blacks, dielectric paint blacks and carbon nanotubes paint blacks has been performed. Prospects of using carbon nanotubes based black absorbing coatings for pyroelectric and other thermal detector application are shown.

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Taxonomy

TopicsCalibration and Measurement Techniques · Infrared Target Detection Methodologies · Thermography and Photoacoustic Techniques