%0 Generic %A Vretenar, Mario %A Puplauskis, Marius %A Klärs, Jan %D 2023 %T Data underlying the publication: Mirror Surface Nanostructuring via Laser Direct Writing - Characterization and Physical Origins %U https://data.4tu.nl/articles/dataset/Data_underlying_the_publication_Mirror_Surface_Nanostructuring_via_Laser_Direct_Writing_-_Characterization_and_Physical_Origins/22231669/1 %R 10.4121/22231669.v1 %K laser direct writing %K nanostructuring approaches %K mirror surfaces %X
The addition of an optically absorptive layer to otherwise standard dielectric mirrors enables a set of laser direct writing nanostructuring methods that can add functionality to such mirrors while retaining their high reflectivity. A thorough characterization of this method is given in this paper, and its physical origins are investigated. In particular, our measurements show that laser direct writing of such mirrors has a reversible and a permanent component. The reversible process originates from the thermal expansion of the surface and allows a simple yet precise way to temporarily modify the shape of the mirror. Scanning electron microscope cross-sectional images suggest that the permanent part of the nanostructuring process is due to thermally induced pore formation and enlargement in the tantalum oxide layers of the used dielectric mirror.
%I 4TU.ResearchData