Litcius/Paper detail

Assessment of the Earth’s Cold Plasmatrough Modeling by Using Van Allen Probes/EMFISIS and Arase/PWE Electron Density Data

Edith Botek, Viviane Pierrard, F. Darrouzet

2021Journal of Geophysical Research Space Physics21 citationsDOIOpen Access PDF

Abstract

Abstract The Space Weather Integrated Forecasting Framework (SWIFF) Plasmasphere Model (SPM) is a 3D kinetic model of the plasmasphere coupled to the ionosphere. This combined system has been routinely used to evaluate principally the plasmapause formation and evolution, and the plasmasphere’s dynamics. The model contains analytical equations for the plasmasphere and plasmatrough regions that have been empirically determined using observations of satellite and ground‐based data. In the present work, a revision of the plasmatrough equations is proposed using electron density data from the Van Allen Probes mission and paying particular attention to the spatiotemporal variation as well as to geomagnetic activity influence. Comparisons are performed with other parametrizations and with electron density data from the Arase mission. This assessment demonstrates that the plasmatrough electron density was slightly underestimated with respect to the new observations, in particular for high L values ( L > 3) and high geomagnetic activity. In addition, the overall performance of the new parametrization follows a satisfactory general trend despite a large variability of density data observed in the plasmatrough. The plasmatrough is separated from the refilling zone in the model by considering vestigial and outer edge plasmapause positions.

Topics & Concepts

PlasmasphereEarth's magnetic fieldParametrization (atmospheric modeling)Electron densityVan Allen radiation beltInternational Reference IonosphereIonosphereGeophysicsPhysicsVan Allen ProbesComputational physicsElectronGeologyMagnetosphereMagnetic fieldTotal electron contentTECRadiative transferQuantum mechanicsIonosphere and magnetosphere dynamicsGeomagnetism and Paleomagnetism StudiesSolar and Space Plasma Dynamics