The effect of laser wavelength on laser-plasma coupling is one of the critical issues facing the laser driven inertial confinement community. The advantages of using lasers with output wavelength less than 1 ..mu..m, such as enhanced absorption and hydrodynamic efficiency, reduction in parametric instabilities and corresponding suprathermal electron generation, have long been predicted theoretically
Laser-Plasma Interactions and Applications covers the fundamental and applied aspects of high power ...
Laser-Plasma Interactions and Applications covers the fundamental and applied aspects of high power ...
Research into laser-driven inertial confinement fusion is now entering a critical juncture with the ...
Experiments at all three wavelengths included the following: target absorption, stimulated Brillouin...
Laser-driven Inertial Confinement Fusion (ICF) relies on the use of high-energy laser beams to compr...
In recent years there has been considerable interest in the use of sub-micron wavelength lasers for ...
Many nonlinear processes may affect the laser beam propagation and the laser energy deposition in t...
Use of the National Ignition Facility to also output frequency-doubled (.53μm) laser light would all...
We have established the intensity limits for propagation of a frequency-doubled (2omega, 527 nm) hig...
The coupling of laser light with plasmas is one of the key physics issues for the use of high-power ...
The interaction of plasmas with intense lasers is an excellent example of how different fields of ph...
This paper summarizes the results of several laser-plasma-interaction experiments using multikilojou...
Long scale length plasmas were produced by uniform laser irradiation from opposite sides of metal di...
Long scale length plasmas were produced by uniform laser irradiation from opposite sides of metal di...
Three important high-temperature, high-density experiments were conducted recently using the 10-TW, ...
Laser-Plasma Interactions and Applications covers the fundamental and applied aspects of high power ...
Laser-Plasma Interactions and Applications covers the fundamental and applied aspects of high power ...
Research into laser-driven inertial confinement fusion is now entering a critical juncture with the ...
Experiments at all three wavelengths included the following: target absorption, stimulated Brillouin...
Laser-driven Inertial Confinement Fusion (ICF) relies on the use of high-energy laser beams to compr...
In recent years there has been considerable interest in the use of sub-micron wavelength lasers for ...
Many nonlinear processes may affect the laser beam propagation and the laser energy deposition in t...
Use of the National Ignition Facility to also output frequency-doubled (.53μm) laser light would all...
We have established the intensity limits for propagation of a frequency-doubled (2omega, 527 nm) hig...
The coupling of laser light with plasmas is one of the key physics issues for the use of high-power ...
The interaction of plasmas with intense lasers is an excellent example of how different fields of ph...
This paper summarizes the results of several laser-plasma-interaction experiments using multikilojou...
Long scale length plasmas were produced by uniform laser irradiation from opposite sides of metal di...
Long scale length plasmas were produced by uniform laser irradiation from opposite sides of metal di...
Three important high-temperature, high-density experiments were conducted recently using the 10-TW, ...
Laser-Plasma Interactions and Applications covers the fundamental and applied aspects of high power ...
Laser-Plasma Interactions and Applications covers the fundamental and applied aspects of high power ...
Research into laser-driven inertial confinement fusion is now entering a critical juncture with the ...