On the realization of microscopic grids for local strain measurement by direct interferometric photolithography
On the realization of microscopic grids for local strain measurement by direct interferometric photolithography
In order to extend the application range of the so called ‘‘grid method’’ to the micron scale and thus quantitatively characterize the micromechanical behavior of metallic alloys, we report in this paper on the optimization of microscopic 2D gratings with pitches ranging from 1 to 10 µm. After an overview of the state of the art on full-field kinematic measurements at the micron scale, the direct interferometric photolithography technique, used to produce such gratings, is introduced. The shape of the gratings has been characterized using an atomic force microscope and compared with the theoretical profiles. An optimization of the parameters involved in the marking process is then presented. One of the goals lies in the measurement of displacement fields using spatial phase shifting concept which is briefly recalled. This optimization is achieved for two different optical techniques used to observe the grids namely optical microscopy and white light confocal interferometry. Finally, a first evaluation of the performance of the measurement technique is given and discussed.
full-field measurement, grid method, microscale, white light interferometer
1131-1147
Moulart, Raphaël
2d4f008e-a8a6-4e95-9e18-ee0c464787ed
Rotinat, René
e91eb3ac-786d-48dd-b46d-390287afd705
Pierron, Fabrice
a1fb4a70-6f34-4625-bc23-fcb6996b79b4
Lerondel, Gilles
1a8c8157-f48d-4f77-9b37-e179954e9041
December 2007
Moulart, Raphaël
2d4f008e-a8a6-4e95-9e18-ee0c464787ed
Rotinat, René
e91eb3ac-786d-48dd-b46d-390287afd705
Pierron, Fabrice
a1fb4a70-6f34-4625-bc23-fcb6996b79b4
Lerondel, Gilles
1a8c8157-f48d-4f77-9b37-e179954e9041
Moulart, Raphaël, Rotinat, René, Pierron, Fabrice and Lerondel, Gilles
(2007)
On the realization of microscopic grids for local strain measurement by direct interferometric photolithography.
Optics and Lasers in Engineering, 45 (12), .
(doi:10.1016/j.optlaseng.2007.06.009).
Abstract
In order to extend the application range of the so called ‘‘grid method’’ to the micron scale and thus quantitatively characterize the micromechanical behavior of metallic alloys, we report in this paper on the optimization of microscopic 2D gratings with pitches ranging from 1 to 10 µm. After an overview of the state of the art on full-field kinematic measurements at the micron scale, the direct interferometric photolithography technique, used to produce such gratings, is introduced. The shape of the gratings has been characterized using an atomic force microscope and compared with the theoretical profiles. An optimization of the parameters involved in the marking process is then presented. One of the goals lies in the measurement of displacement fields using spatial phase shifting concept which is briefly recalled. This optimization is achieved for two different optical techniques used to observe the grids namely optical microscopy and white light confocal interferometry. Finally, a first evaluation of the performance of the measurement technique is given and discussed.
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e-pub ahead of print date: 24 August 2007
Published date: December 2007
Keywords:
full-field measurement, grid method, microscale, white light interferometer
Organisations:
Engineering Mats & Surface Engineerg Gp
Identifiers
Local EPrints ID: 210627
URI: http://eprints.soton.ac.uk/id/eprint/210627
ISSN: 0143-8166
PURE UUID: 012ea12b-6cf0-404e-8ff5-ec183f4881c5
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Date deposited: 09 Mar 2012 12:09
Last modified: 15 Mar 2024 03:35
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Contributors
Author:
Raphaël Moulart
Author:
René Rotinat
Author:
Gilles Lerondel
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