Add to ORKGInternational audienceWe present the application of a numerical method to correct electron moments calculated on-board spacecraft from the effects of potential broadening and energy range truncation. Assuming a shape for the natural distribution of the ambient plasma and employing the scalar approximation, the on-board moments can be represented as non-linear integral functions of the underlying distribution. We have implemented an algorithm which inverts this system successfully over a wide range of parameters for an assumed underlying drifting Maxwellian distribution. The outputs of the solver are the corrected electron plasma temperature Te, density Ne and velocity vector Ve. We also make an estimation of the temperature anisotropy A of ...
Shock waves are ubiquitous in space and astrophysics. Shocks transform directed particle flow energy...
The quasi-thermal noise spectroscopy is an accurate method of determination of density and temperatu...
International audienceThe ionospheric electron population is divided into two groups. The ambient el...
International audienceWe present the application of a numerical method to correct electron moments c...
A complete computation of the effect of the spacecraft potential on electron moments is presented. ...
An electron analyser to measure the three-dimensional velocity distribution of electrons in the ener...
International audienceA model for electrons in partially ionized plasmas that self-consistently capt...
Abstract We present the first electron and ion moment maps (density, velocity and temper-ature) of t...
The Plasma Electron and Current Experiment (PEACE) instruments operate on all four of the Cluster sp...
Data from the Cassini plasma spectrometer (CAPS) electron spectrometer (ELS) have been found to be c...
The various steps involved in computing the moments (density, velocity, and temperature) of the ion ...
International audienceSpacecraft potential measurements by the EFW electric field experiment on the ...
Shock waves are ubiquitous in space and astrophysics. Shocks transform directed particle flow energy...
The quasi-thermal noise spectroscopy is an accurate method of determination of density and temperatu...
International audienceThe ionospheric electron population is divided into two groups. The ambient el...
International audienceWe present the application of a numerical method to correct electron moments c...
A complete computation of the effect of the spacecraft potential on electron moments is presented. ...
An electron analyser to measure the three-dimensional velocity distribution of electrons in the ener...
International audienceA model for electrons in partially ionized plasmas that self-consistently capt...
Abstract We present the first electron and ion moment maps (density, velocity and temper-ature) of t...
The Plasma Electron and Current Experiment (PEACE) instruments operate on all four of the Cluster sp...
Data from the Cassini plasma spectrometer (CAPS) electron spectrometer (ELS) have been found to be c...
The various steps involved in computing the moments (density, velocity, and temperature) of the ion ...
International audienceSpacecraft potential measurements by the EFW electric field experiment on the ...
Shock waves are ubiquitous in space and astrophysics. Shocks transform directed particle flow energy...
The quasi-thermal noise spectroscopy is an accurate method of determination of density and temperatu...
International audienceThe ionospheric electron population is divided into two groups. The ambient el...