Burst-mode fs-laser direct writing for full-thickness oxidation of Ta thin films

Abstract

Direct fs-laser (1030~nm/200~fs) write of a throughout oxide Ta2O5 on a 200~nm Ta film was achieved using a combined ps- and ns- burst mode (Burst-in-Burst or BiB) of fs-pulse exposure at a high 0.6~MHz repetition rate. Few micrometers-wide lines were formed at the center of 12~μm focal spot by controlled oxidation without ablation. The oxidized regions were flat and optically transparent. Wavelength-scale self-organized ripples of oxidized Ta2O5 sub-1~μm gratings were recorded by rastering a 1× 1~mm2 area. The oxidized ripples with periodic pattern wavelength were aligned with the polarization of the writing beam. Energy deposition in the burst-mode oxidation is discussed by comparing 200~fs and 20~ps BiB-mode writing modes. The presented strategy of self-guided oxidation with heat deposition by BiB fs-laser opens an opportunity for debris-free and annealing-free oxidation on a sub-wavelength scale.