Title of article
Laser interference metallurgy: A new method for periodic surface microstructure design on multilayered metallic thin films
Author/Authors
A. Lasagni، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
5
From page
8070
To page
8074
Abstract
Methods for micro- and nanostructuring are essential for functionalization of materials surfaces. In particular, photon-assisted methods for
synthesis of functional surfaces have been intensively investigated in the last years. In this study, a new method for surface modification and
production of long-range order periodical structures called ‘‘laser interference metallurgy’’ is explored. A metallic thin film sample consisting of
three layers composed of Fe, Cu and Al (from top to bottom) on a glass substrate was irradiated with an interference pattern using a Nd:YAG laser
(wavelength of 355 nm, 10 ns of pulse duration). For the interference pattern, a configuration producing a line-type energy distribution was chosen.
The laser fluence was high enough to melt the aluminium and copper layers at the interference maxima but the iron layer remained in the solid state.
Thus, diffusive and convective exchange occurred between aluminium and copper at the energy maxima positions leading to periodical alloy
formation with a long-range order. Because it remained in solid state, the iron layer at the top acted as a protective layer effectively preventing
removal of the molten layers. The interaction of the different layers was characterized using FIB, TEM and EDX in STEM mode.
Keywords
Laser Interference Metallurgy , Alloying , Metallic thin films
Journal title
Applied Surface Science
Serial Year
2007
Journal title
Applied Surface Science
Record number
1004120
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