Dynamics of femtosecond laser-induced periodic surface structures on silicon by high spatial and temporal resolution imaging.

The formation dynamics of periodic ripples induced by femtosecond laser pulses (pulse duration τ=50 fs and central wavelength λ=800 nm) are studied by a collinear pump-probe imaging technique with a temporal resolution of 1 ps and a spatial resolution of 440 nm. The ripples with periods close to the laser wavelength begin to appear upon irradiation of two pump pulses at surface defects produced by the prior one. The rudiments of periodic ripples emerge in the initial tens of picoseconds after fs laser irradiation, and the ripple positions keep unmoved until the formation processes complete mainly in a temporal span of 1500 ps. The results suggest that the periodic deposition of laser energy during the interaction between femtosecond laser pulses and sample surface plays a dominant role in the formation of periodic ripples. [ABSTRACT FROM AUTHOR]