Add to ORKGThe multi-megabar shock driver development is a series of experiments in support of the Los Alamos High Energy Density Physics Experimental Program. Its purpose is to develop techniques to impact a uniform, stable, composite liner upon a high Z target to produce a multi-megabar shock for EOS studies. To date, experiments have been done on the Pegasus II capacitor bank with a current of {approximately}12MA driving the impactor liner. The driving field is {approximately}200 T at the target radius of 1cm. Data will be presented on the impactor liner. The driving field is {approximately}200 T at the target radius of 1 cm. Data will be presented on the stability and uniformity of the impactor liner when it impacts the target cylinder. Three expe...
Sandia National Laboratories (SNL) designs mechanical systems with electronics that must survive hig...
For many scientific and programmatic applications, it is necessary to determine the shock compressio...
When a shock wave interacts at the surface of a metal target, target material can be emitted from th...
Using pulsed power to implode a liner onto a target can produce high shock pressures for many intere...
Among the solid liners made of a single material which are imploded onto a target under the same dri...
The Los Alamos program in High Energy Density Physics is developing high performance imploding liner...
Atlas is a high-energy pulsed-power facility under construction at Los Alamos National Laboratory. W...
The Los Alamos High Energy Density Physics program uses capacitively driven low voltage, inductive-s...
We have summarized some of the motivation behind high energy liner experiments. We have identified t...
The authors have investigated the acceleration of very thick cylindrical aluminum liners using the P...
Cylindrical metal shells imploded by magnetic fields - liners - are used as kinetic energy drivers f...
In August 1997, the Los Alamos National Laboratory (LANL) and the All-Russian Scientific Research In...
The authors report results of one-and-two-dimensional MHD simulations of an imploding heavy liner in...
Pulsed power systems have been used in the past to drive solid liner implosions for a variety of app...
Magnetically driven imploding liner systems can be used as a source of shock energy for materials eq...
Sandia National Laboratories (SNL) designs mechanical systems with electronics that must survive hig...
For many scientific and programmatic applications, it is necessary to determine the shock compressio...
When a shock wave interacts at the surface of a metal target, target material can be emitted from th...
Using pulsed power to implode a liner onto a target can produce high shock pressures for many intere...
Among the solid liners made of a single material which are imploded onto a target under the same dri...
The Los Alamos program in High Energy Density Physics is developing high performance imploding liner...
Atlas is a high-energy pulsed-power facility under construction at Los Alamos National Laboratory. W...
The Los Alamos High Energy Density Physics program uses capacitively driven low voltage, inductive-s...
We have summarized some of the motivation behind high energy liner experiments. We have identified t...
The authors have investigated the acceleration of very thick cylindrical aluminum liners using the P...
Cylindrical metal shells imploded by magnetic fields - liners - are used as kinetic energy drivers f...
In August 1997, the Los Alamos National Laboratory (LANL) and the All-Russian Scientific Research In...
The authors report results of one-and-two-dimensional MHD simulations of an imploding heavy liner in...
Pulsed power systems have been used in the past to drive solid liner implosions for a variety of app...
Magnetically driven imploding liner systems can be used as a source of shock energy for materials eq...
Sandia National Laboratories (SNL) designs mechanical systems with electronics that must survive hig...
For many scientific and programmatic applications, it is necessary to determine the shock compressio...
When a shock wave interacts at the surface of a metal target, target material can be emitted from th...