Add to ORKGThe communication is focused on the influence of the pulse width, ranging from femtosecond to picosecond, on the laser – matter interaction during laser ablation of solid materials. Modifications in the stretcher-compressor do allow the continuous selection of amplified pulses in the range between 35 fs to 4 ps. Time constants, fluence threshold, and multi-channel spectra have been measured out of the generated plasmas.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech. CTQ2017-82137-
For lasers, there exist many current and potential competitive applications in the areas of manufact...
Laser induced breakdown is important in applications ranging from laser machining to laser induced b...
The development of lasers in terms of pulse length and ablation quality has made wider the perspecti...
Our communication is focused on the influence of the pulse width in the laser-matter interaction dur...
This works presents the laser ablation studies for metals such as Chromium, Titanium, Iron and Copp...
Ablation using femtosecond lasers exhibits significant differences with that at the nanosecond times...
The talk will provide an overview of differentexperiments performed on solid samples under femtoseco...
Ablation using femtosecond lasers exhibits significant differences in comparison with the nanosecond...
Abstract Traditionally nanosecond laser pulses have been used for Laser-induced Breakdown Spectrosco...
Laser ablation processes based on ultrafast (fs) pulses offer significant potential advantages over ...
Application of picosecond and femtosecond laser pulses to the controlled ablation of materials repre...
AbstractIn laser microstructuring there is a general conflict between precision and efficiency. Shor...
Laser filamentation is a non-diffracting propagation regime consisting of an intense core that is su...
Femtosecond laser pulses provides the advantage in comparison with longer pulses that there is no in...
We investigated the role of femtosecond (fs) laser wavelength on laser ablation (LA) and its relatio...
For lasers, there exist many current and potential competitive applications in the areas of manufact...
Laser induced breakdown is important in applications ranging from laser machining to laser induced b...
The development of lasers in terms of pulse length and ablation quality has made wider the perspecti...
Our communication is focused on the influence of the pulse width in the laser-matter interaction dur...
This works presents the laser ablation studies for metals such as Chromium, Titanium, Iron and Copp...
Ablation using femtosecond lasers exhibits significant differences with that at the nanosecond times...
The talk will provide an overview of differentexperiments performed on solid samples under femtoseco...
Ablation using femtosecond lasers exhibits significant differences in comparison with the nanosecond...
Abstract Traditionally nanosecond laser pulses have been used for Laser-induced Breakdown Spectrosco...
Laser ablation processes based on ultrafast (fs) pulses offer significant potential advantages over ...
Application of picosecond and femtosecond laser pulses to the controlled ablation of materials repre...
AbstractIn laser microstructuring there is a general conflict between precision and efficiency. Shor...
Laser filamentation is a non-diffracting propagation regime consisting of an intense core that is su...
Femtosecond laser pulses provides the advantage in comparison with longer pulses that there is no in...
We investigated the role of femtosecond (fs) laser wavelength on laser ablation (LA) and its relatio...
For lasers, there exist many current and potential competitive applications in the areas of manufact...
Laser induced breakdown is important in applications ranging from laser machining to laser induced b...
The development of lasers in terms of pulse length and ablation quality has made wider the perspecti...