Collisional Transport in a Low Aspect Ratio Tokamak -- Beyond the Drift Kinetic Formalism
Authors: D.A. Gates and R.B. White
Date of PPPL Report: January 2004
Published in: Physics of Plasmas 11:9 (September 2004) L45-L48
Published as: Collisional Transport in a Low Aspect Ratio Tokamak
Authors: D.A. Gates, H.E. Mynick, and R.B. White
Calculations of collisional thermal and particle diffusivities in toroidal magnetic plasma confinement devices order the toroidal gyroradius to be small relative to the poloidal gyroradius. This ordering is central to what is usually referred to as neoclassical transport theory. This ordering is incorrect at low aspect ratio, where it can often be the case that the toroidal gyroradius is larger than the poloidal gyroradius. We calculate the correction to the particle and thermal diffusivities at low aspect ratio by comparing the diffusivities as determined by a full orbit code (which we refer to as omni-classical diffusion) with those from a gyroaveraged orbit code (neoclassical diffusion). In typical low aspect ratio devices the omni-classical diffusion can be up to 2.5 times the calculated neoclassical value. We discuss the implications of this work on the analysis of collisional transport in low aspect ratio magnetic confinement experiments.