Laser processing with ultra-short double pulses has gained attraction since the beginning of
the 2000s. In the last decade, pulse bursts consisting of multiple pulses with a delay of …

The demand for higher throughput in the processing of materials with ultra-short pulsed
lasers has motivated studies on the use of double pulses (DP). It has been observed in such …

The authors present results of ablation on silicon with ultrafast laser radiation featuring burst
pulses using an amplified burst-mode solid-state laser, featuring an emitting wavelength of …

We have investigated the effect of the laser wavelength on the fabrication of optical
waveguides and tracks of modified material via direct laser writing inside fused silica. The …

Bursts of femtosecond laser pulses were used to record internal modifications inside fused
silica for selective chemical etching. Two-pulse bursts with a variable energy ratio between …

Ultrafast lasers micromachining results depend on both the processing parameters and the
material properties. The obtained thermal effects are negligible if a good combination of …

The spatio-temporal design of ultrafast laser excitation can have a determinant influence on
the physical and engineering aspects of laser–matter interactions, with the potential of …

The interaction of high-power single 130 femtosecond (fs) laser pulses with the surface of
Lithium Niobate is experimentally investigated in this work. The use of fs-resolution time …

Glass processing is a subject of high interest for many industrial fields such as optics
manufacturing, smart electronics or medical devices. With respect to nanosecond …

Controlling the electron dynamics during laser-matter interactions is a key factor to control
the energy deposition and subsequent material modifications induced by femtosecond laser …