The ion and electron diffusion coefficients inside the helical magnetic core in a single helicity reversed field pinch (RFP) toroidal plasma have been numerical determined by a Monte Carlo test particle approach. A new algorithm aimed at approximating with polyhedra the magnetic surfaces obtained with Poincaré cross sections has been developed. Stationary simulations of test ion and electron transport have been performed: they allow the determination of the average diffusion coefficients inside the helical core both for ions and electrons, which are much lower than those found in standard multiple helicity plasmas. Results are discussed and compared with those found in previous RFP simulations. The technique may be relevant also for stellarator and tokamak studies.

Topics
Diffusion, Electronic transport, Thomson scattering, Thermodynamic states and processes, Cosmic rays, Convex geometry, Dynamical systems, Plasma confinement, Stellarators, Tokamaks
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© 2007 American Institute of Physics.
2007
American Institute of Physics
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