Subpicosecond excimer laser ablation of thick gold films of ultra-fine particles generated by a gas deposition technique

Abstract

The results of UV laser ablation of gold nanoparticle films on glass substrates using femtosecond pulses are presented. Films of ultra-fine gold particles were prepared by an inert gas evaporation and deposition technique, resulting in a well-defined log-normal particle size distribution of (7±1) nm. The pulse length of the laser was 500 fs at a wavelength of 248 nm. Ablation thresholds, ablation rates at different fluxes, and the morphology of the ablated structures are presented. For the nanoparticle films studied an ablation rate five times higher than that of gold films prepared by the conventional evaporation technique was found. The ablation thresholds and rates are supposed to depend on the particle size and also on the evaporation pressure. These results are explained by taking into account the energy transport properties of nanocrystalline and conventionally evaporated gold films.