Add to ORKGIn the last few years, fibre lasers have established themselves as the preferred laser source in many applications. The combination of small size, maintenance-free operation, thermal and electrical efficiency combined with outstanding (diffraction- limited) beam quality have made the fibre laser an attractive alternative to more established technologies. In fact, in some processes the fiber laser is the enabling technology. Unique among high power lasers, the fiber laser is monolithic, the light being entirely confined to the fiber core. This gives immunity to thermal distortion of the beam
Fiber lasers enjoy an excellent reputation as power-scalable diode-pumped solid-state laser concept....
Fiber lasers have caught the imagination for applications requiring beam combination up to a 100kW o...
With the development of laser techniques, different kinds of lasers such as Nd: YAG laser, CO2 laser...
High power fibre laser technology has come of age over the past five years or so, due primarily to d...
High power fibre laser technology has come of age over the past five years or so, due primarily to d...
Fibre lasers are thin, light-guiding strands of glass only a few times the thickness of a hair which...
Born out of the optical telecoms revolution, the high power fiber laser challenges currently held vi...
High performance fibre lasers are now well established as an extremely robust and reliable technolog...
Fibre lasers are now associated with high average powers and very high beam qualities. Both these ch...
Abstract: There have been a number of laser developments in recent years that are quite staggering i...
Laser cutting is still the most common industrial application of CO2 laser systems but currently ava...
We review progress in the development of cladding-pumped fibre laser technology which now provides a...
Diffraction-limited high power lasers represent a new generation of lasers for materials processing,...
The extended performance capabilities of fiber lasers are increasingly used in lower-power marking, ...
Fraction-limited high power lasers represent a new generation of lasers for materials processing, ch...
Fiber lasers enjoy an excellent reputation as power-scalable diode-pumped solid-state laser concept....
Fiber lasers have caught the imagination for applications requiring beam combination up to a 100kW o...
With the development of laser techniques, different kinds of lasers such as Nd: YAG laser, CO2 laser...
High power fibre laser technology has come of age over the past five years or so, due primarily to d...
High power fibre laser technology has come of age over the past five years or so, due primarily to d...
Fibre lasers are thin, light-guiding strands of glass only a few times the thickness of a hair which...
Born out of the optical telecoms revolution, the high power fiber laser challenges currently held vi...
High performance fibre lasers are now well established as an extremely robust and reliable technolog...
Fibre lasers are now associated with high average powers and very high beam qualities. Both these ch...
Abstract: There have been a number of laser developments in recent years that are quite staggering i...
Laser cutting is still the most common industrial application of CO2 laser systems but currently ava...
We review progress in the development of cladding-pumped fibre laser technology which now provides a...
Diffraction-limited high power lasers represent a new generation of lasers for materials processing,...
The extended performance capabilities of fiber lasers are increasingly used in lower-power marking, ...
Fraction-limited high power lasers represent a new generation of lasers for materials processing, ch...
Fiber lasers enjoy an excellent reputation as power-scalable diode-pumped solid-state laser concept....
Fiber lasers have caught the imagination for applications requiring beam combination up to a 100kW o...
With the development of laser techniques, different kinds of lasers such as Nd: YAG laser, CO2 laser...