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Proceedings Paper

Improved resolution of submicron KrF laser ablation of polymers by a new filtered imaging irradiation
Author(s): Sylvain Lazare; Francois Weisbuch; Vladimir Tokarev; Dominique Debarre
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Paper Abstract

Surface grating-like ablation with microscopic period (Λ ~ 1-5 μm) is achieved at the surface of polymers with the aid of the KrF laser patterned with a mask projection technique using a precision imaging lens. The ablated patterns can be controlled with a submicron accuracy in most cases on smooth polymer surfaces. Prediction of these patterns can furthermore be made with the aid of theoretical models combining ablation curves, intensity profiles and hydrodynamic flow. We further demonstrate that by using harmonic filtering the grating period can be divided by a factor 2 thus leading to a convenient resolution enhancement. This improvement can be achieved by two experimental approaches. One is by changing the defocus and the other is the removal of low level orders (0 and ± 1) of the Fourier components of the image beams. Resulting grating patterns with doubled spatial frequency will be presented for a number of polymeric materials (AFM, SEM). It reveals to be a good method to overcome the theoretical limitations due to numerical aperture of the precision lens which prevent the transfer of details in the image by erasing the high spatial frequencies. This interesting optical set up and method offer also the advantage of a large working distance above the sample surface which is compatible with irradiations in vacuum and liquid phase.

Paper Details

Date Published: 8 October 2004
PDF: 6 pages
Proc. SPIE 5662, Fifth International Symposium on Laser Precision Microfabrication, (8 October 2004); doi: 10.1117/12.596312
Show Author Affiliations
Sylvain Lazare, LPCM, CNRS and Univ. Bordeaux I (France)
Francois Weisbuch, LPCM, CNRS and Univ. Bordeaux I (France)
Vladimir Tokarev, LPCM, CNRS and Univ. Bordeaux I (France)
Dominique Debarre, IEF, CNRS and Univ. Paris-Sud XI (France)


Published in SPIE Proceedings Vol. 5662:
Fifth International Symposium on Laser Precision Microfabrication

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