This paper reports the surface morphologies and ablation of crystalline silicon wafers irradiated by infra-red 775 nm Ti:sapphire femtosecond laser. The effects of energy fluences (below and above single-pulse modification) with different number of pulses were studied. New morphological features such as pits, cracks formation, Laser-Induced Periodic Surface Structures (LIPSS) and ablation were observed. The investigation indicated that there are two distinct mechanisms under femtosecond laser irradiation: low fluence regime with different morphological features and high fluence regime with high material removal and without complex morphological features.Singapore-MIT Alliance (SMA
Ultra-short pulsed laser radiation has been shown to be effective for precision materials processing...
The influence of the pulse repetition rate on laser irradiation of silicon, in air, with femtosecond...
Creation of laser-induced morphology features, particularly laser-induced periodic surface structure...
Crystalline silicon kept at atmospheric pressure was irradiated with 775 nm multiple laser pulses of...
We have analyzed the effects of the laser pulse wavelength (400 nm) on femtosecond laser surface st...
We report here a detailed analysis of the ultrashort laser pulse irradiation effects on a single cry...
International audienceFemtosecond laser induced surface modification allows us to functionalize surf...
Laser-induced damage morphology using femtosecond laser pulses on Si surfaces is reported. Damage mo...
International audienceFemtosecond lasers allow one to functionalize surfaces at a micro and nanomete...
AbstractSurface damage morphologies were studied by irradiating with pulses (fluence of 1.13J/cm2) i...
Extensive research work has been carried out on the generation and application of laser-induced peri...
Surface texturing of silicon using femtosecond (fs) laser irradiation is an attractive method for en...
Femtosecond laser micromilling of silicon is investigated using a regeneratively amplified 775 nm Ti...
Ultra-short pulsed laser radiation has been shown to be effective for precision materials processing...
The influence of the pulse repetition rate on laser irradiation of silicon, in air, with femtosecond...
Creation of laser-induced morphology features, particularly laser-induced periodic surface structure...
Crystalline silicon kept at atmospheric pressure was irradiated with 775 nm multiple laser pulses of...
We have analyzed the effects of the laser pulse wavelength (400 nm) on femtosecond laser surface st...
We report here a detailed analysis of the ultrashort laser pulse irradiation effects on a single cry...
International audienceFemtosecond laser induced surface modification allows us to functionalize surf...
Laser-induced damage morphology using femtosecond laser pulses on Si surfaces is reported. Damage mo...
International audienceFemtosecond lasers allow one to functionalize surfaces at a micro and nanomete...
AbstractSurface damage morphologies were studied by irradiating with pulses (fluence of 1.13J/cm2) i...
Extensive research work has been carried out on the generation and application of laser-induced peri...
Surface texturing of silicon using femtosecond (fs) laser irradiation is an attractive method for en...
Femtosecond laser micromilling of silicon is investigated using a regeneratively amplified 775 nm Ti...
Ultra-short pulsed laser radiation has been shown to be effective for precision materials processing...
The influence of the pulse repetition rate on laser irradiation of silicon, in air, with femtosecond...
Creation of laser-induced morphology features, particularly laser-induced periodic surface structure...