In a classical ideal plasma, a magnetic field is known to reduce the heat conductivity perpendicular to the field, whereas it does not alter the one along the field. Here we show that, in strongly correlated plasmas that are observed at high pressure and/or low temperature, a magnetic field reduces the perpendicular heat transport much less and even enhances the parallel transport. These surprising observations are explained by the competition of kinetic, potential, and collisional contributions to the heat conductivity. Our results are based on first-principle molecular dynamics simulations of a one-component plasma
Radial heat transport induced by magnetic field line fluctuations is obtained from the integral para...
In this dissertation we present measurements of cross-magnetic-field heat transport in pure electron...
Discrete particle processes in the presence of a strong external magnetic field were investigated. T...
A magnetic field was recently shown to enhance field-parallel heat conduction in a strongly correlat...
It is well known that magnetic fields affect heat conduction in a different way in the direction par...
Heat transport is studied in strongly heated fusion plasmas, far from thermodynamic equilibrium. The...
We review recent progress in theory and simulation of strongly correlated classical plasmas, in gene...
A code that solves the coupled electron drift kinetic and temperature equations has been written to ...
ABSTRACT Magneto-inertial fusion (MIF) approaches, such as the MagLIF experiment, use magnetic field...
Extended-magnetohydrodynamics (MHD) transports magnetic flux and electron energy in high-energy-dens...
In conventional gases and plasmas, it is known that heat fluxes are proportional to temperature grad...
Coulomb collisions in plasmas are typically modeled using the Boltzmann collision operator or its va...
Radial heat transport induced by magnetic field line fluctuations is obtained from the integral para...
In this dissertation we present measurements of cross-magnetic-field heat transport in pure electron...
Discrete particle processes in the presence of a strong external magnetic field were investigated. T...
A magnetic field was recently shown to enhance field-parallel heat conduction in a strongly correlat...
It is well known that magnetic fields affect heat conduction in a different way in the direction par...
Heat transport is studied in strongly heated fusion plasmas, far from thermodynamic equilibrium. The...
We review recent progress in theory and simulation of strongly correlated classical plasmas, in gene...
A code that solves the coupled electron drift kinetic and temperature equations has been written to ...
ABSTRACT Magneto-inertial fusion (MIF) approaches, such as the MagLIF experiment, use magnetic field...
Extended-magnetohydrodynamics (MHD) transports magnetic flux and electron energy in high-energy-dens...
In conventional gases and plasmas, it is known that heat fluxes are proportional to temperature grad...
Coulomb collisions in plasmas are typically modeled using the Boltzmann collision operator or its va...
Radial heat transport induced by magnetic field line fluctuations is obtained from the integral para...
In this dissertation we present measurements of cross-magnetic-field heat transport in pure electron...
Discrete particle processes in the presence of a strong external magnetic field were investigated. T...