Add to ORKGIn theory, applying an electric field perpendicular and a magnetic field parallel (or anti-parallel) to a particle\u27s trajectory should confine the particles into an E X B circular motion. However, experiments have shown that particles in a non-neutral plasma trap escape this E X B confinement. Furthermore, plasma theory predicts a rate of transport 40 times greater than what experiment shows. One possible way to study this discrepancy is to use computer simulations applied to the equations of motion of the plasma theory. We use preliminary simulations applied to various systems with known analytical solutions, and determine the simulation\u27s ability to numerically calculate solutions to within the desired margin of error
The objective of this research is to determine the scaling of the plasma\u27s radial transport with ...
A numerical procedure is described for the evaluation of magnetic coordinates given a toroidal, scal...
International audienceUnderstanding anomalous electron transport in E × B discharges remains a key c...
The study of Asymmetry-Induced transport is an exciting new part of Plasma Physics. In order to gain...
The purpose of this grant was to experimentally investigate asymmetry-induced radial transport in a ...
Asymmetry-induced transport of a non-neutral plasma within a coaxial Malmberg-Penning trap is analyz...
A single-particle computer code with collisional effects is used to study asymmetry-induced radial t...
Our research focused on particle transport, which we studied by confining non-neutral plasma in a Ma...
This summer we studied asymmetry-induced radial transport with non-neutral plasmas in a modified Mal...
Small asymmetries of the confining electric and magnetic fields pose an upper limit on the lifetime ...
Weak axial variations in B(z) or φ(z) in “axisym-metric ” plasma traps cause a fraction of the parti...
The dependence of radial particle flux on the confining magnetic field is a key piece of information...
A "parallel current constraint" is derived, that in combination with the Poisson equation allows one...
Plasma confinement in Malmberg-Penning traps is limited by the presence of trap asymmetries that pro...
Although applied asymmetries have been shown to cause radial transport in non-neutral plasma, there ...
The objective of this research is to determine the scaling of the plasma\u27s radial transport with ...
A numerical procedure is described for the evaluation of magnetic coordinates given a toroidal, scal...
International audienceUnderstanding anomalous electron transport in E × B discharges remains a key c...
The study of Asymmetry-Induced transport is an exciting new part of Plasma Physics. In order to gain...
The purpose of this grant was to experimentally investigate asymmetry-induced radial transport in a ...
Asymmetry-induced transport of a non-neutral plasma within a coaxial Malmberg-Penning trap is analyz...
A single-particle computer code with collisional effects is used to study asymmetry-induced radial t...
Our research focused on particle transport, which we studied by confining non-neutral plasma in a Ma...
This summer we studied asymmetry-induced radial transport with non-neutral plasmas in a modified Mal...
Small asymmetries of the confining electric and magnetic fields pose an upper limit on the lifetime ...
Weak axial variations in B(z) or φ(z) in “axisym-metric ” plasma traps cause a fraction of the parti...
The dependence of radial particle flux on the confining magnetic field is a key piece of information...
A "parallel current constraint" is derived, that in combination with the Poisson equation allows one...
Plasma confinement in Malmberg-Penning traps is limited by the presence of trap asymmetries that pro...
Although applied asymmetries have been shown to cause radial transport in non-neutral plasma, there ...
The objective of this research is to determine the scaling of the plasma\u27s radial transport with ...
A numerical procedure is described for the evaluation of magnetic coordinates given a toroidal, scal...
International audienceUnderstanding anomalous electron transport in E × B discharges remains a key c...