Astronomy and Astrophysics – Astrophysics
Scientific paper
2005-05-16
Astrophys.J. 626 (2005) L117-L120
Astronomy and Astrophysics
Astrophysics
Accepted for publication in The Astrophysical Journal Letters (accepted: 13 May 2005)
Scientific paper
10.1086/431904
One of the basic properties of the solar wind, that is the high speed of the fast wind, is still not satisfactorily explained. This is mainly due to the theoretical difficulty of treating weakly collisional plasmas. The fluid approach implies that the medium is collision dominated and that the particle velocity distributions are close to Maxwellians. However the electron velocity distributions observed in the solar wind depart significantly from Maxwellians. Recent kinetic collisionless models (called exospheric) using velocity distributions with a suprathermal tail have been able to reproduce the high speeds of the fast solar wind. In this letter we present new developments of these models by generalizing them over a large range of corona conditions. We also present new results obtained by numerical simulations that include collisions. Both approaches calculate the heat flux self-consistently without any assumption on the energy transport. We show that both approaches - the exospheric and the collisional one - yield a similar variation of the wind speed with the basic parameters of the problem; both produce a fast wind speed if the coronal electron distribution has a suprathermal tail. This suggests that exospheric models contain the necessary ingredients for the powering of a transonic stellar wind, including the fast solar one.
Landi Simone
Maksimovic Milan
Meyer-Vernet Nicole
Pantellini Filippo
Zouganelis I.
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