Highly ordered LIPSS on Au thin film for plasmonic sensing fabricated by double femtosecond pulses

We report on the single-step fabrication of homogeneous and highly ordered Laser Induced Periodic Surface Structures (LIPSS) over large areas on Au nanolayers, that can be used for plasmonic sensing. A comprehensive study on LIPSS formation on 32 nm Au film upon double, 170 fs pulse irradiation, unveiled the key importance of interpulse delay as the determining factor behind the homogeneity of laser induced structures and confirmed that highly ordered, functional LIPSS occur solely upon double pulse irradiation. In particular, the impact of pulse overlap, fluence and interpulse delay reveals that homogeneous LIPSS formation is optimized within a specific interpulse delay range. At the same time, examination of nanoscale features of the structures points out a significant differentiation of the LIPSS formation characteristics between single and double pulse irradiation. Theoretical investigation complements experimental results providing insights on the structure formation mechanism. Ellipsometric measurements validate that such structures exhibit characteristic plasmon resonances that can be exploited for sensing applications. The presented data demonstrate a novel functionality of LIPSS, while providing strong evidence of the capabilities of femtosecond double pulse irradiation as a valuable and low-cost tool for the precise fabrication of highly ordered structures.