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Main Authors: Berg, J. P. van den, Els, P. L., Engelbrecht, N. E.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.21001
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author Berg, J. P. van den
Els, P. L.
Engelbrecht, N. E.
author_facet Berg, J. P. van den
Els, P. L.
Engelbrecht, N. E.
contents The pitch-angle diffusion coefficient quantifies the effect of pitch-angle scattering on charged particles propagating through turbulent magnetic fields and is a key ingredient in understanding the diffusion of these particles along the background magnetic field. Despite its significance, only a limited number of studies have calculated the pitch-angle diffusion coefficient from test particle simulations in synthetic magnetic turbulence, employing various, often quite different, techniques for this purpose. In this study, we undertake a comparative analysis of nine different methods for calculating the pitch-angle diffusion coefficient from full-orbit simulations. Our objective is to find the strengths and limitations of each method and to determine the most reliable approach. Although all nine methods should theoretically yield comparable results, certain methods may be ill-suited for numerical investigations, while others may not be applicable under conditions of strong turbulence. Through this investigation, we aim to provide recommendations for best practices when employing these methods in future numerical studies of pitch-angle scattering.
format Preprint
id arxiv_https___arxiv_org_abs_2410_21001
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle An Evaluation of Different Numerical Methods to Calculate the Pitch-angle Diffusion Coefficient from Full-orbit Simulations: disentangling a rope of sand
Berg, J. P. van den
Els, P. L.
Engelbrecht, N. E.
Space Physics
The pitch-angle diffusion coefficient quantifies the effect of pitch-angle scattering on charged particles propagating through turbulent magnetic fields and is a key ingredient in understanding the diffusion of these particles along the background magnetic field. Despite its significance, only a limited number of studies have calculated the pitch-angle diffusion coefficient from test particle simulations in synthetic magnetic turbulence, employing various, often quite different, techniques for this purpose. In this study, we undertake a comparative analysis of nine different methods for calculating the pitch-angle diffusion coefficient from full-orbit simulations. Our objective is to find the strengths and limitations of each method and to determine the most reliable approach. Although all nine methods should theoretically yield comparable results, certain methods may be ill-suited for numerical investigations, while others may not be applicable under conditions of strong turbulence. Through this investigation, we aim to provide recommendations for best practices when employing these methods in future numerical studies of pitch-angle scattering.
title An Evaluation of Different Numerical Methods to Calculate the Pitch-angle Diffusion Coefficient from Full-orbit Simulations: disentangling a rope of sand
topic Space Physics
url https://arxiv.org/abs/2410.21001