Blog

30.11. 2015

Electron energetics in the expanding solar wind

Electron energetics in the expanding solar wind
Detailed statistical analysis of electron energetic properties as measured by HELIOS 1&2 spacecraft indicates that for the non-adiabatic cooling of electrons in the expanding solar wind no significant external heating mechanisms are required.
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12.10. 2015

Recovering features of the observed solar wind spectra by means of high-resolution hybrid simulations

Recovering features of the observed solar wind spectra by means of high-resolution hybrid simulations
High-resolution two-dimensional hybrid simulations of turbulence with an out-of-plane ambient magnetic field are able to simultaneously reproduce several aspects of observed solar wind spectra over a large range of scales, from the MHD to the sub-ion kinetic range.
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14.01. 2015

The imprints of expansion on solar wind turbulence

The imprints of expansion on solar wind turbulence
Numerical simulations show that solar wind expansion affects the evolution of turbulence in the heliosphere, causing the emergence of strong transverse magnetic fields and of radial velocity jets.
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15.12. 2014

Electron heat flux in the solar wind: Data vs. Simulations

Electron heat flux in the solar wind: Data vs. Simulations
Numerical simulations, which include the effects of binary collisions, are able to reproduce qualitatively and quantitatively the electron heat flux in the solar wind observed at 1 AU.
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22.05. 2014

Proton and alpha particle thermal energetics in the solar wind

Proton and alpha particle thermal energetics in the solar wind
Numerical simulations indicate that proton and alpha particle thermal energetics in the solar wind are importantly influenced by kinetic instabilities.
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06.05. 2014

The role of binary collisions in the electron properties of the solar wind

The role of binary collisions in the electron properties of the solar wind
Numerical simulations show that the effect of the radial expansion and the binary collisions between electrons play a significant role in shaping the observed velocity distribution function.
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28.03. 2013

MHD Simulations of the Hermean Magnetosphere

MHD Simulations of the Hermean Magnetosphere
Simulation of the interaction of the solar wind with the Hermean magnetosphere using the AMRVAC-MHD code.
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19.04. 2012

Solar Wind – Time Development of Waves

The solar wind is a high flow of plasma from the Sun which fills the solar system. As the solar wind flows away from the Sun it expands, and this expansion changes the particle distribution function within the plasma. This can only happen because the plasma is very low density and very high temperature so that it is collisionless, which means that the particle distribution functions are not forced to be stable Maxwellian distributions as in a normal gas.
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