Complex finite element analysis applied to photothermal  and thermoelastic microscopies

Cavallier B.; Ballandras S.; Cretin B.; Vairac P.

doi:10.1051/smdo:2008009

International Journal for Simulation and Multidisciplinary Design Optimization (Jan 2008)

Complex finite element analysis applied to photothermal and thermoelastic microscopies

Cavallier B.,
Ballandras S.,
Cretin B.,
Vairac P.

Affiliations

Cavallier B.
Ballandras S.
Cretin B.
Vairac P.

DOI: https://doi.org/10.1051/smdo:2008009
Journal volume & issue: Vol. 2, no. 1
pp. 71 – 75

Abstract

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Photothermal and thermoelastic microscopes are non-destructive systems that generally work with lock-in detection. Experimental results are typically given for one modulation frequency. In order to understand related magnitude and phase images obtained with complex geometries, we have developed a finite element analysis (FEA) dynamic method. Particularly, it enables to directly obtain both thermal and thermoelastic harmonic fields for one modulation frequency. It has been applied to thermoelastic microscopy and has shown very good agreement with experiments. Numerical results from a 3D complex geometry model are presented and show the influence of both excitation size radius and modulation frequency on thermoelastic normal displacements.

Published in International Journal for Simulation and Multidisciplinary Design Optimization

ISSN: 1779-627X (Print); 1779-6288 (Online)
Publisher: EDP Sciences
Country of publisher: France
LCC subjects: Technology: Technology (General): Industrial engineering. Management engineering; Technology: Technology (General): Industrial directories
Website: http://www.ijsmdo.org/

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