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Thermo-elastic properties characterization by photothermal microscopy*

Published online by Cambridge University Press:  15 September 2003

J. Jumel ,
F. Taillade  and
F. Lepoutre
J. Jumel
Affiliation:
ONERA/DMSE/MECS, BP 72, 92322 Châtillon Cedex, France CEA Le Ripault, BP16, 37260 Monts, France
F. Taillade
Affiliation:
ONERA/DMSE/MECS, BP 72, 92322 Châtillon Cedex, France
F. Lepoutre*
Affiliation:
ONERA/DMSE/MECS, BP 72, 92322 Châtillon Cedex, France
*
lepoutre@cnam.fr
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Abstract

A photothermal microscope devoted to microscopic thermal and thermo-elastic characterizations is presented. In thermal configuration, the sample is heated by an intensity modulated laser beam and the periodic temperature increase at the sample surface is detected using the photoreflectance technique. In thermo-elastic configuration, the periodic elevation of the sample surface is measured using a Nomarski interferometer. The spatial resolution is micrometric, the sensivity is better than 10−3 K/$\surd$Hz in thermal configuration and 10 pm/$\surd$Hz in the interferometric one. Typical photoreflectance thermal properties measurements are performed to evaluate the performance of the instrument. In thermo-elastic configuration, the interferometric signal has to be carefully analyzed to remove spurious photothermal effects. The thermo-elastic response of isotropic and anisotropic homogeneous samples during modulated photothermal experiments are then calculated to demonstrate that interferometric measurements enable quantitative determination of some of the sample thermo-elastic parameters such as thermal diffusivity, elastic anisotropy and crystalline orientation.

Keywords

Type
Research Article
Information
The European Physical Journal - Applied Physics , Volume 23 , Issue 3 , September 2003 , pp. 217 - 225
Copyright
© EDP Sciences, 2003

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Footnotes

*

This paper has been first presented orally at the C2I colloquium in February 2001

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