Delay-time Distributions of Solar Energetic Particles. II. Effects of Magnetic Focusing

We extend a recently published analytic model for the intensity-time profile of solar energetic particle (SEP) events, in which the dominant physical mechanism is turbulent pitch-angle scattering of a collimated distribution of particles accelerated at the Sun. The present model includes the effect...

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Veröffentlicht in:	The Astrophysical journal 2020-07, Vol.897 (1), p.34
Hauptverfasser:	Bian, N. H., Emslie, A. Gordon
Format:	Artikel
Sprache:	eng
Schlagworte:	Astrophysics Collimation Energetic particles Field strength Heliosphere Magnetic fields Mathematical models Pitch (inclination) Rescaling Solar activity Solar energetic particles Solar flares Stochastic processes
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creator	Bian, N. H. Emslie, A. Gordon
description	We extend a recently published analytic model for the intensity-time profile of solar energetic particle (SEP) events, in which the dominant physical mechanism is turbulent pitch-angle scattering of a collimated distribution of particles accelerated at the Sun. The present model includes the effect of magnetic focusing in the expanding magnetic field geometry of the inner heliosphere. For a power-law variation of the magnetic field strength with distance (B ∼ s− ) that lacks a characteristic focusing length scale, the fundamental shape of the intensity-time profile (i.e., a Lévy distribution at times up to and just past the time of peak intensity, followed by an exponential decay) is preserved. The effect of magnetic focusing is essentially to produce a rescaling of the stochastic process describing the angular diffusion of the particles, making the typical time that characterizes the SEP time profile quantitatively lower by a factor of ( + 1), 3 for the radial field geometry B ∼ s−2.
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subjects	Astrophysics Collimation Energetic particles Field strength Heliosphere Magnetic fields Mathematical models Pitch (inclination) Rescaling Solar activity Solar energetic particles Solar flares Stochastic processes
title	Delay-time Distributions of Solar Energetic Particles. II. Effects of Magnetic Focusing
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