Title :
Hybrid-Vlasov simulations of the Earth´s collisionless bow shock and foreshock region
Author :
Kempf, Y. ; Pokhotelov, D. ; von Alfthan, S. ; Hannuksela, O. ; Palmroth, M.
Author_Institution :
Dept. of Phys., Univ. of Helsinki, Helsinki, Finland
Abstract :
We present magnetospheric simulation results obtained with the hybrid-Vlasov code Vlasiator. In this model, the ion distribution function is propagated in up to three spatial and three velocity dimensions with Vlasov´s equation, while electrons are treated as a massless charge-neutralising fluid. Therefore ion kinetic effects are fully included in the description. One major strength of the model is the unprecedented quality of the ion distribution functions due to the uniform sampling and the absence of statistical noise. Another strength lies in the robust finite volume algorithm which yields good numerical stability especially in shock modelling.
Keywords :
Vlasov equation; interplanetary magnetic fields; magnetosphere; solar wind; Earth collisionless bow shock; Earth collisionless foreshock region; Vlasiator; Vlasovs equation; hybrid-Vlasov code; hybrid-Vlasov simulation; ion distribution function; ion kinetic effect; magnetospheric simulation; major model strength; massless charge-neutralising fluid; numerical stability; robust finite volume algorithm; shock modelling; spatial velocity dimension; statistical noise; three velocity dimension; uniform sampling; unprecedented ion distribution function quality; Distribution functions; Earth; Educational institutions; Electric shock; Magnetosphere; Mathematical model; Numerical models;
Conference_Titel :
General Assembly and Scientific Symposium (URSI GASS), 2014 XXXIth URSI
Conference_Location :
Beijing
DOI :
10.1109/URSIGASS.2014.6929902
