Add to ORKGLaser induced controlled fracture propagation has great potential in cutting brittle materials such as glass or sapphire. In this paper we demonstrate that the use of ultrashort pulse laser sources may be advantageous since it allows to overcome several restrictions of the convenient method
Ultrafast laser sources with pulse durations in the sub-picosecond regime enable a precise machining...
International audienceWe demonstrate the advantage of combining non-diffractive beam shapes and femt...
AbstractLaser pulses with a pulsewidth of a few picoseconds have recently received a lot of attentio...
We demonstrate that the use of low energy but high repetition ultrashort laser systems can be advant...
International audienceWe demonstrate that the use of low energy but high repetition ultrashort laser...
We present the use of a compact femtosecond laser with 300-fs pulse duration and pulse energy on the...
International audienceWe present the use of a compact femtosecond laser with 300-fs pulse duration a...
Ultrashort laser pulses allow for in-volume processing of glass through non-linear absorption. This ...
We report on quartz and glass cutting by a lateral scanning of femtosecond pulses (150 fs at 1 kHz r...
Laser scribing of thin glass has proven problematic due to inefficient optical absorption and diffic...
A new type of material processing is enabled with ultrashort (t < 10 ps) laser pulses. Cutting, dril...
A new type of material processing is enabled with ultrashort (t < 10 psec) laser pulses. Cutting,...
The confined and tailored interaction of ultrashort laser pulses with wide band-gap materials such a...
The state of the technology of ultrashort pulse laser applications such as glass cutting is dominate...
The paper presents the possibilities and challenges of Laser structuring of brittle and fragile func...
Ultrafast laser sources with pulse durations in the sub-picosecond regime enable a precise machining...
International audienceWe demonstrate the advantage of combining non-diffractive beam shapes and femt...
AbstractLaser pulses with a pulsewidth of a few picoseconds have recently received a lot of attentio...
We demonstrate that the use of low energy but high repetition ultrashort laser systems can be advant...
International audienceWe demonstrate that the use of low energy but high repetition ultrashort laser...
We present the use of a compact femtosecond laser with 300-fs pulse duration and pulse energy on the...
International audienceWe present the use of a compact femtosecond laser with 300-fs pulse duration a...
Ultrashort laser pulses allow for in-volume processing of glass through non-linear absorption. This ...
We report on quartz and glass cutting by a lateral scanning of femtosecond pulses (150 fs at 1 kHz r...
Laser scribing of thin glass has proven problematic due to inefficient optical absorption and diffic...
A new type of material processing is enabled with ultrashort (t < 10 ps) laser pulses. Cutting, dril...
A new type of material processing is enabled with ultrashort (t < 10 psec) laser pulses. Cutting,...
The confined and tailored interaction of ultrashort laser pulses with wide band-gap materials such a...
The state of the technology of ultrashort pulse laser applications such as glass cutting is dominate...
The paper presents the possibilities and challenges of Laser structuring of brittle and fragile func...
Ultrafast laser sources with pulse durations in the sub-picosecond regime enable a precise machining...
International audienceWe demonstrate the advantage of combining non-diffractive beam shapes and femt...
AbstractLaser pulses with a pulsewidth of a few picoseconds have recently received a lot of attentio...