Relativistic electron beam propagation through solid density plasma is a rich area for magnetic field dynamics. It is well known that Ohmic heating of the background plasma caused by the beam significantly affects magnetic field generation, primarily through changes in the resistivity. In particular, temperature changes in the background plasma leads to the generation of a magnetic field that acts to deflect relativistic electrons from the beam axis. This 'beam hollowing' field could have disastrous implications for the fast ignitor scheme. In this paper, the effects of background heat flow on magnetic field generation are considered, first with a simple analytic investigation, and then with 1D Vlasov Fokker–Planck and classical transpor...
In indirect-drive inertial-fusion experiments, a hohlraum converts laser energy into X-rays that hea...
This thesis reports on experimental investigations of relativistic (`fast') electron transport in so...
Collimated transport of fast electron beam through solid density matter is one of the key issues beh...
Magnetic fields, spontaneously generated around laser heating nonuniformities, have been found to in...
High energy gain in inertial fusion schemes requires the propagation of a thermonuclear burn wave fr...
In the interaction of high-power laser beams with solid density plasma there are a number of mechani...
An intense, pulsed, relativistic electron beam can heat a thin metal plate to a plasma state as it t...
Extended-magnetohydrodynamics (MHD) transports magnetic flux and electron energy in high-energy-dens...
ABSTRACT Magneto-inertial fusion (MIF) approaches, such as the MagLIF experiment, use magnetic field...
Here we investigate, using relativistic fluid theory and Vlasov-Maxwell simulations, the local heati...
We report on kinetic simulations of the transport of laser-produced relativistic electron beams (REB...
We show, using three dimensional hybrid particle-in-cell simulations, that fast electron transport i...
In this research we examine how electron heat moves along magnetic field lines and how this affects ...
The two-stage electron acceleration/ heating model (Wu et al 2017 Nucl. Fusion 57 016007 and Wu et a...
A relativistic electron beam pulse of high current density will heat a thin target plate to a plasma...
In indirect-drive inertial-fusion experiments, a hohlraum converts laser energy into X-rays that hea...
This thesis reports on experimental investigations of relativistic (`fast') electron transport in so...
Collimated transport of fast electron beam through solid density matter is one of the key issues beh...
Magnetic fields, spontaneously generated around laser heating nonuniformities, have been found to in...
High energy gain in inertial fusion schemes requires the propagation of a thermonuclear burn wave fr...
In the interaction of high-power laser beams with solid density plasma there are a number of mechani...
An intense, pulsed, relativistic electron beam can heat a thin metal plate to a plasma state as it t...
Extended-magnetohydrodynamics (MHD) transports magnetic flux and electron energy in high-energy-dens...
ABSTRACT Magneto-inertial fusion (MIF) approaches, such as the MagLIF experiment, use magnetic field...
Here we investigate, using relativistic fluid theory and Vlasov-Maxwell simulations, the local heati...
We report on kinetic simulations of the transport of laser-produced relativistic electron beams (REB...
We show, using three dimensional hybrid particle-in-cell simulations, that fast electron transport i...
In this research we examine how electron heat moves along magnetic field lines and how this affects ...
The two-stage electron acceleration/ heating model (Wu et al 2017 Nucl. Fusion 57 016007 and Wu et a...
A relativistic electron beam pulse of high current density will heat a thin target plate to a plasma...
In indirect-drive inertial-fusion experiments, a hohlraum converts laser energy into X-rays that hea...
This thesis reports on experimental investigations of relativistic (`fast') electron transport in so...
Collimated transport of fast electron beam through solid density matter is one of the key issues beh...