Add to ORKGJupiter is a Sandia initiative to develop the next generation of fast Z-pinch drivers for applications to high energy density physics, inertial confinement fusion, and radiation effects simulation. Jupiter will also provide unique capabilities for science research in a broad spectrum of areas involving ultra high magnetic fields, hot/dense plasmas, x-ray physics, intense neutron sources, etc. The program is based on the premise that a single facility using magnetically driven implosions can meet the needs in these multiple program areas. Jupiter requires a 450-500 TW, 8-10 MV, {approx} 100 ns pulsed power generator to impart - 15 MJ kinetic energy to an imploding plasma load. The baseline concept uses a highly modular, robust architecture w...
PBFA-II, with design parameters of 3.5 MJ and 100 TW, is being configured to allow us to investigate...
In the past three years, tremendous strides have been made in X-ray production using high-current Z-...
Fast z-pinch implosions can convert more than 10% of the stored electrical energy in a pulsed-power ...
This paper will briefly identify a promising fusion plasma power source, which when coupled with a p...
Three hohlraum concepts are being pursued at Sandia National Laboratories (SNL) to investigate the p...
Three hohlraum concepts are being pursued at Sandia National Laboratories (SNL) to investigate the p...
Sandia`s Particle Beam Fusion Program is investigating several driver options, based on pulsed power...
Over the past 15 years, steady and sometimes exciting progress has been made in the hybrid technolog...
Demonstration of a single-shot, high-yield, fusion target is a goal of the z-pinch ICF program at SN...
Pulsed power offers and efficient, high energy, economical source of x-rays for inertial confinement...
The US Department of Energy has supported a substantial research program in Inertial Confinement Fus...
Light ion beams may be the best option for an Inertial Fusion Energy (IFE) driver from the standpoin...
The proposed Jupiter accelerator is a {approximately} 10-MV, 500-TW system capable of delivering 15-...
To harness fusion energy is one of today's greatest technological challenges, and one well worth pur...
With the promising new results of fast z-pinch technology developed at Sandia National Laboratories,...
PBFA-II, with design parameters of 3.5 MJ and 100 TW, is being configured to allow us to investigate...
In the past three years, tremendous strides have been made in X-ray production using high-current Z-...
Fast z-pinch implosions can convert more than 10% of the stored electrical energy in a pulsed-power ...
This paper will briefly identify a promising fusion plasma power source, which when coupled with a p...
Three hohlraum concepts are being pursued at Sandia National Laboratories (SNL) to investigate the p...
Three hohlraum concepts are being pursued at Sandia National Laboratories (SNL) to investigate the p...
Sandia`s Particle Beam Fusion Program is investigating several driver options, based on pulsed power...
Over the past 15 years, steady and sometimes exciting progress has been made in the hybrid technolog...
Demonstration of a single-shot, high-yield, fusion target is a goal of the z-pinch ICF program at SN...
Pulsed power offers and efficient, high energy, economical source of x-rays for inertial confinement...
The US Department of Energy has supported a substantial research program in Inertial Confinement Fus...
Light ion beams may be the best option for an Inertial Fusion Energy (IFE) driver from the standpoin...
The proposed Jupiter accelerator is a {approximately} 10-MV, 500-TW system capable of delivering 15-...
To harness fusion energy is one of today's greatest technological challenges, and one well worth pur...
With the promising new results of fast z-pinch technology developed at Sandia National Laboratories,...
PBFA-II, with design parameters of 3.5 MJ and 100 TW, is being configured to allow us to investigate...
In the past three years, tremendous strides have been made in X-ray production using high-current Z-...
Fast z-pinch implosions can convert more than 10% of the stored electrical energy in a pulsed-power ...