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space plasma physics

A Case for Electron-Astrophysics

arXiv:1908.02206

summary

The paper outlines the emerging field of electron-astrophysics, emphasizing the need to study electron‑scale processes that control energy transport and dissipation in space and astrophysical plasmas.

Abstract

A grand-challenge problem at the forefront of physics is to understand how energy is transported and transformed in plasmas. This fundamental research priority encapsulates the conversion of plasma-flow and electromagnetic energies into particle energy, either as heat or some other form of energisation. The smallest characteristic scales, at which electron dynamics determines the plasma behaviour, are the next frontier in space and astrophysical plasma research. The analysis of astrophysical processes at these scales lies at the heart of the field of electron-astrophysics. Electron scales are the ultimate bottleneck for dissipation of plasma turbulence, which is a fundamental process not understood in the electron-kinetic regime. Since electrons are the most numerous and most mobile plasma species in fully ionised plasmas and are strongly guided by the magnetic field, their thermal properties couple very efficiently to global plasma dynamics and thermodynamics.

White Paper for the Voyage 2050 Long-Term Plan in the ESA Science Programme; 27 pages

Topics & keywords

#electron-astrophysics#plasma turbulence#kinetic scales#energy transport#magnetized plasmaselectron kineticsplasma turbulence dissipationkinetic plasma scalesmagnetic field couplingVoyage 2050 white paper