We report on the progress in developing and building the Mercury laser system as the first in a series of a new generation of diode- pumped solid-state Inertial Confinement Fusion (ICF) lasers at Lawrence Livermore National Laboratory (LLNL). Mercury will be the first integrated demonstration of a scalable laser architecture compatible with advanced high energy density (HED) physics applications. Primary performance goals include 10% efficiencies at 10 Hz and a 1-10 ns pulse with 1 omega energies of 100 J and with 2 omega/3 omega frequency conversion
[Abstract] Inertial confinement fusion has made a great progress. In fact several significant scient...
Nestled in a valley between the whitecaps of the Pacific and the snowcapped crests of the Sierra Nev...
The authors discuss the inertial-confinement approach to fusion energy. After explaining the fundame...
We are in the process of developing and building the ``Mercury`` laser system as the first in a seri...
We are in the process of developing and building a laser system as the first in a series of a new ge...
Hundred-joule, kilowatt-class lasers based on diode-pumped solid-state technologies, are being devel...
The scope of the Mercury Laser project encompasses the research, development, and engineering requir...
Hundred-joule, kilowatt-class lasers based on diode-pumped solid-state technologies, are being devel...
This paper reviews work on flashlamp-pumped solid state lasers and discusses diode-pumped solid stat...
The National Ignition Facility (NIF) at Lawrence Livermore Laboratory is on target to demonstrate 'b...
Inertial confinement fusion (ICF) research puts severe demands on the laser driver. In recent years ...
The ultimate goal of worldwide research in inertial confinement fusion (ICF) is to develop fusion as...
The High Average Power Laser Program (HAPL) is a multi-institutional, synergistic effort to develop ...
Laser systems designed for plasma research are operating in many laboratories throughout the world. ...
We discuss how solid-state laser technology can serve in the interests of fusion energy beyond the g...
[Abstract] Inertial confinement fusion has made a great progress. In fact several significant scient...
Nestled in a valley between the whitecaps of the Pacific and the snowcapped crests of the Sierra Nev...
The authors discuss the inertial-confinement approach to fusion energy. After explaining the fundame...
We are in the process of developing and building the ``Mercury`` laser system as the first in a seri...
We are in the process of developing and building a laser system as the first in a series of a new ge...
Hundred-joule, kilowatt-class lasers based on diode-pumped solid-state technologies, are being devel...
The scope of the Mercury Laser project encompasses the research, development, and engineering requir...
Hundred-joule, kilowatt-class lasers based on diode-pumped solid-state technologies, are being devel...
This paper reviews work on flashlamp-pumped solid state lasers and discusses diode-pumped solid stat...
The National Ignition Facility (NIF) at Lawrence Livermore Laboratory is on target to demonstrate 'b...
Inertial confinement fusion (ICF) research puts severe demands on the laser driver. In recent years ...
The ultimate goal of worldwide research in inertial confinement fusion (ICF) is to develop fusion as...
The High Average Power Laser Program (HAPL) is a multi-institutional, synergistic effort to develop ...
Laser systems designed for plasma research are operating in many laboratories throughout the world. ...
We discuss how solid-state laser technology can serve in the interests of fusion energy beyond the g...
[Abstract] Inertial confinement fusion has made a great progress. In fact several significant scient...
Nestled in a valley between the whitecaps of the Pacific and the snowcapped crests of the Sierra Nev...
The authors discuss the inertial-confinement approach to fusion energy. After explaining the fundame...