Development of an Analytical Model for Optimization of Direct Laser Interference Patterning

Results of the work in the Laser4Fun project has been published as:

Bogdan Voisiat, Alfredo I. Aguilar-Morales, Tim Kunze and Andrés Fabián Lasagni. Development of an Analytical Model for Optimization of Direct Laser Interference Patterning. Materials 13 (200), 2020.

Abstract

Direct laser interference patterning (DLIP) has proven to be a fast and, at the same time, high-resolution process for the fabrication of large-area surface structures. In order to provide structures with adequate quality and defined morphology at the fastest possible fabrication speed, the processing parameters have to be carefully selected. In this work, an analytical model was developed and verified by experimental data, which allows calculating the morphological properties of periodic structures as a function of most relevant laser-processing parameters. The developed
model permits to improve the process throughput by optimizing the laser spot diameter, as well as pulse energy, and repetition rate. The model was developed for the structures formed by a single scan of the beam in one direction. To validate the model, microstructures with a 5.5 m spatial period were fabricated on stainless steel by means of picosecond DLIP (10 ps), using a laser source operating at a 1064 nm wavelength. The results showed a di erence of only 10% compared to the experimental results.

Link(s)

https://doi.org/10.3390/ma13010200