Perpendicular transport of charged particles: Results for the unified nonlinear transport theory derived from the Newton–Lorentz equation
Perpendicular transport of charged particles: Results for the unified nonlinear transport theory derived from the Newton–Lorentz equation
- New search for: Dosch, A.
- New search for: Shalchi, A.
- New search for: Zank, G.P.
- New search for: Dosch, A.
- New search for: Shalchi, A.
- New search for: Zank, G.P.
Abstract The perpendicular diffusion coefficient is calculated by combining a recently developed Unified Nonlinear Transport (UNLT) theory with the Newton–Lorentz equation. The total perpendicular mean free path can be described as a combination of a guiding center contribution and a microscopic contribution. It is shown that the total mean free path depends strongly on the energy range of the turbulence power spectrum and on particle energy. Further, a slab/2D composite model is used to investigate the influence of each contribution to the total mean free path for a quasi-3D turbulence model. For pure 2D turbulence the UNLT reduces to the NLGC-theory. For pure slab turbulence the guiding center contribution is subdiffusive in accordance with simulations and the theorem on reduced dimensionality. Conversely, the microscopic contribution is non-zero, which has to be interpreted as normal diffusion.
Document information
Perpendicular transport of charged particles: Results for the unified nonlinear transport theory derived from the Newton–Lorentz equation
Advances in Space Research ; 52 , 5 ; 936-950
2013-05-01
15 pages
Article (Journal)
Electronic Resource
English
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