Add to ORKGAbstract — A grazing-incidence metal mirror has been developed and tested as a candidate design option that has the potential to survive acceptably high laser fluence as well as the harsh environment of a laser-driven inertial fusion reactor chamber. We have developed fabrication techniques for high damage threshold metal mirrors and performed laser-induced damage studies using prototypical short-pulse lasers. Our results indicate that grazing-incidence metal mirrors have the ability to survive high-cycle laser irradiation while satisfying the requirements on beam quality necessary for successful target implosions
In operational laser systems, it is often difficult to keep optical components completely free of fo...
Using a well characterized 1.06 $mu$m 150 ps glass laser pulse the damage characteristics for diamon...
The Inertial Confinement Fusion (ICF) program at LLNL is beginning the design of a 1.8 Megajoule, 0....
The final optic in a laser-IFE power plant beamline experiences direct line-of-sight exposure to tar...
The grazing incidence metal mirror is a promising option for the final optic in a laser-driven inert...
Grazing incidence metal mirrors (GIMMs) are examined to replace dielectric mirrors for the final ele...
A Grazing Incidence Metal Mirror (GIMM) is a chief candidate for beam delivery for Inertial Fusion E...
A thin film of liquid metal is suggested as a grazing incident liquid metal mirror (GILMM) for robus...
When laser light interacts with a material's surface, photons rapidly heat the electronic system, re...
AbstrAct Our studies were aimed to determine the damage threshold of Molybdenum (Mo) and Stainless S...
In the experimental fusion reactor ITER, the plasma-facing component of each optical and/or laser di...
In the experimental fusion reactor ITER, the plasma-facing component of each optical and/or laser di...
In the experimental fusion reactor ITER, the plasma-facing component of each optical and/or laser di...
One definition for the “damage limit ” of a liquid metal surface used as a final optic for laser fus...
An assessment of in-vessel metallic mirror materials for the transmission of the laser beam used in ...
In operational laser systems, it is often difficult to keep optical components completely free of fo...
Using a well characterized 1.06 $mu$m 150 ps glass laser pulse the damage characteristics for diamon...
The Inertial Confinement Fusion (ICF) program at LLNL is beginning the design of a 1.8 Megajoule, 0....
The final optic in a laser-IFE power plant beamline experiences direct line-of-sight exposure to tar...
The grazing incidence metal mirror is a promising option for the final optic in a laser-driven inert...
Grazing incidence metal mirrors (GIMMs) are examined to replace dielectric mirrors for the final ele...
A Grazing Incidence Metal Mirror (GIMM) is a chief candidate for beam delivery for Inertial Fusion E...
A thin film of liquid metal is suggested as a grazing incident liquid metal mirror (GILMM) for robus...
When laser light interacts with a material's surface, photons rapidly heat the electronic system, re...
AbstrAct Our studies were aimed to determine the damage threshold of Molybdenum (Mo) and Stainless S...
In the experimental fusion reactor ITER, the plasma-facing component of each optical and/or laser di...
In the experimental fusion reactor ITER, the plasma-facing component of each optical and/or laser di...
In the experimental fusion reactor ITER, the plasma-facing component of each optical and/or laser di...
One definition for the “damage limit ” of a liquid metal surface used as a final optic for laser fus...
An assessment of in-vessel metallic mirror materials for the transmission of the laser beam used in ...
In operational laser systems, it is often difficult to keep optical components completely free of fo...
Using a well characterized 1.06 $mu$m 150 ps glass laser pulse the damage characteristics for diamon...
The Inertial Confinement Fusion (ICF) program at LLNL is beginning the design of a 1.8 Megajoule, 0....