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Fundamental solution of diffusion equation for Kappa gas: Diffusion length for suprathermal electrons in solar wind

M. H. Benetti, F. E. M. Silveira, Iberê L. Caldas

2023Physical review. E14 citationsDOIOpen Access PDF

Abstract

A recent numerical treatment of data obtained by the Parker Solar Probe spacecraft describes the electron concentration in solar wind as a function of the heliocentric distance based on a Kappa distribution with spectral index κ=5. In this work, we derive and, subsequently, solve an entirely different class of nonlinear partial differential equations describing the one-dimensional diffusion of a suprathermal gas. The theory is applied to describe the aforementioned data and we find a spectral index κ≳1.5 providing the widely acknowledged identification of Kappa electrons in solar wind. We also find that suprathermal effects increase the length scale of classical diffusion by one order of magnitude. Such a result does not depend on the microscopic details of the diffusion coefficient since our theory is based on a macroscopic formulation. Forthcoming extensions of our theory by including magnetic fields and relating our formulation to nonextensive statistics are briefly addressed.

Topics & Concepts

PhysicsSolar windDiffusionElectronComputational physicsDistribution functionStatistical physicsMagnetic fieldQuantum mechanicsAdvanced Thermodynamics and Statistical MechanicsStatistical Mechanics and EntropySolar and Space Plasma Dynamics
Fundamental solution of diffusion equation for Kappa gas: Diffusion length for suprathermal electrons in solar wind | Litcius