The invariance of the diffusion coefficient with the iterative operations of charged particles' transport equation

Abstract

The Spatial Parallel Diffusion Coefficient (SPDC) is one of the important quantities describing energetic charged particle transport. There are three different definitions for the SPDC, i.e., the Displacement Variance definition zzDV=t→ t∞dσ2/(2dt), the Fick's Law definition zzFL=J/X with X=∂F/∂z, and the TGK formula definition zzTGK=∫0∞dt vz(t)vz(0) . For constant mean magnetic field, the three different definitions of the SPDC give the same result. However, for focusing field it is demonstrated that the results of the different definitions are not the same. In this paper, from the Fokker-Planck equation we find that different methods, e.g., the general Fourier expansion and perturbation theory, can give the different Equations of the Isotropic Distribution Function (EIDFs). But it is shown that one EIDF can be transformed into another by some Derivative Iterative Operations (DIOs). If one definition of the SPDC is invariant for the DIOs, it is clear that the definition is also an invariance for different EIDFs, therewith it is an invariant quantity for the different Derivation Methods of EIDF (DMEs). For the focusing field we suggest that the TGK definition zzTGK is only the approximate formula, and the Fick's Law definition zzFL is not invariant to some DIOs. However, at least for the special condition, in this paper we show that the definition zzDV is the invariant quantity to the kinds of the DIOs. Therefore, for spatially varying field the displacement variance definition zzDV, rather than the Fick's law definition zzFL and TGK formula definition zzTGK, is the most appropriate definition of the SPDCs.