Litcius/Paper detail

The κ-cookbook: a novel generalizing approach to unify κ-like distributions for plasma particle modelling

K. Scherer, Edin Husidic, M. Lazar, H. Fichtner

2020Monthly Notices of the Royal Astronomical Society21 citationsDOIOpen Access PDF

Abstract

ABSTRACT In the literature different so-called κ-distribution functions are discussed to fit and model the velocity (or energy) distributions of solar wind species, pickup ions, or magnetospheric particles. Here, we introduce a generalized (isotropic) κ-distribution as a ‘cookbook’, which admits as special cases, or ‘recipes’, all the other known versions of κ-models. A detailed analysis of the generalized distribution function is performed, providing general analytical expressions for the velocity moments, Debye length, and entropy, and pointing out a series of general requirements that plasma distribution functions should satisfy. From a contrasting analysis of the recipes found in the literature, we show that all of them lead to almost the same macroscopic parameters with a small standard deviation between them. However, one of these recipes called the regularized κ-distribution provides a functional alternative for macroscopic parametrization without any constraint for the power-law exponent κ.

Topics & Concepts

PhysicsParametrization (atmospheric modeling)Distribution functionStatistical physicsIsotropyDistribution (mathematics)Entropy (arrow of time)Power lawClassical mechanicsTheoretical physicsMathematical analysisQuantum mechanicsStatisticsMathematicsRadiative transferSolar and Space Plasma DynamicsStatistical Mechanics and EntropyIonosphere and magnetosphere dynamics