The Laser Science and Technology Department at Lawrence Livermore National Laboratory is developing solid state lasers with high average power and high beam quality. Specific systems include a laser to generate 10 to 14 {angstrom} x-rays for proximity print lithography, a 400 mJ, 500 Hz laser for 130 {angstrom} projection lithography and unique systems for speckle imaging, laser radars and medical treatments
The high power laser market has been remarkably influenced by the introduction of high-brightness la...
[[abstract]]Recent developments in high-power solid-state lasers (Nd:YAG, Nd:glass) have greatly imp...
During the last few years the development and fabrication technology of high power laser diodes (HPL...
High Power Lasers have been used for years in corresponding applications. Constantly new areas and n...
In recent years, lasers have been developed to an essential tool in accelerator science for a variet...
The capability of cooling laser diode bars in an architecture that allows the construction of a high...
An overview of the solid state laser technology is presented, with special emphasis on industrial an...
The continuous development in laser technology opens new fields of application in industrial product...
The Solid-State, Heat-Capacity Laser (SSHCL) program at Lawrence Livermore National Laboratory is a ...
Laser micromachining has become a key enabling technology in the ever-continuing trend of miniaturiz...
This paper discusses methods for characterization of high power lasers. Specifically, these methods ...
Diode pumped solid-state lasers with wattage outputs well into double figures, yet only the size of ...
The Laser Science and Technology (LS and T) Program's mission is to provide advanced solid-state las...
An overview of the latest developments of kilowatt-level diode pumped solid state lasers for advance...
An overview is given of the types of lasers dominating the field of laser materials processing. The ...
The high power laser market has been remarkably influenced by the introduction of high-brightness la...
[[abstract]]Recent developments in high-power solid-state lasers (Nd:YAG, Nd:glass) have greatly imp...
During the last few years the development and fabrication technology of high power laser diodes (HPL...
High Power Lasers have been used for years in corresponding applications. Constantly new areas and n...
In recent years, lasers have been developed to an essential tool in accelerator science for a variet...
The capability of cooling laser diode bars in an architecture that allows the construction of a high...
An overview of the solid state laser technology is presented, with special emphasis on industrial an...
The continuous development in laser technology opens new fields of application in industrial product...
The Solid-State, Heat-Capacity Laser (SSHCL) program at Lawrence Livermore National Laboratory is a ...
Laser micromachining has become a key enabling technology in the ever-continuing trend of miniaturiz...
This paper discusses methods for characterization of high power lasers. Specifically, these methods ...
Diode pumped solid-state lasers with wattage outputs well into double figures, yet only the size of ...
The Laser Science and Technology (LS and T) Program's mission is to provide advanced solid-state las...
An overview of the latest developments of kilowatt-level diode pumped solid state lasers for advance...
An overview is given of the types of lasers dominating the field of laser materials processing. The ...
The high power laser market has been remarkably influenced by the introduction of high-brightness la...
[[abstract]]Recent developments in high-power solid-state lasers (Nd:YAG, Nd:glass) have greatly imp...
During the last few years the development and fabrication technology of high power laser diodes (HPL...
.svg%3Fwidth%3D300&w=3840&q=75)
Add to ORKG