Resonant ion transport in the ELMO Bumpy Torus
Copyright policy )Resonant ion transport in the ELMO Bumpy Torus
Modeling the ELMO Bumpy Torus as a bumpy cylinder with toroidally induced vertical drift, neoclassical transport coefficients are obtained for resonant ions as integrals over the energy-dependent flux. A continuous approximation to this energy-dependent flux reduces to the correct results in the banana and plateau regimes and yields simple analytic formulas for the diffusion coefficients which agree well with numerical results.
- Oak Ridge National Laboratory United States
ELMO bumpy torus, simple analytical formulas, Transport processes in time-dependent statistical mechanics, energy-dependent flux, Basic methods in fluid mechanics, cylinder with toroidally induced vertical drift, banana and plateau regimes, neoclassical transport coefficients, resonant ions, continuous approximation, Ionized gas flow in electromagnetic fields; plasmic flow
ELMO bumpy torus, simple analytical formulas, Transport processes in time-dependent statistical mechanics, energy-dependent flux, Basic methods in fluid mechanics, cylinder with toroidally induced vertical drift, banana and plateau regimes, neoclassical transport coefficients, resonant ions, continuous approximation, Ionized gas flow in electromagnetic fields; plasmic flow
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