SMuK 2023 – scientific programme
Parts | Days | Selection | Search | Updates | Downloads | Help
EP: Fachverband Extraterrestrische Physik
EP 12: Near-Earth Space II
EP 12.5: Talk
Thursday, March 23, 2023, 17:00–17:15, ZEU/0160
Development of a plasmapause model derived from Van-Allen-Probe data and IMAGE RPI data via automatic detection — •Daniela Banyś1, Joachim Feltens1, 2, Norbert Jakowski1, Mainul Hoque1, Rene Zandbergen3, and Werner Enderle4 — 1Institute for Solar-Terrestrial Physics, DLR, Germany — 2Telespazio-VEGA Deutschland GmbH c/o European Space Operations Centre, Germany — 3European Space Operations Centre, Germany - retired — 4European Space Operations Centre, Germany
The outer boundary of the plasmasphere, the plasmapause, is characterised by a sharp electron density gradient which changes under varying space weather conditions. With NEPPM (Neustrelitz ESOC Plasmapause Model), we introduce a new model of the plasmapause location Lpp based on electron density measurements made by the Van Allen probes from 2012 to 2016 and the IMAGE satellite from 2000 to 2005 that were automatically processed, yielding an improved performance for plasmapause detection. Applying a dipole based transformation of measurements, NEPPM is described by a simple elliptical approach in the equatorial plane determined by the semi-major axis, the eccentricity, and the orientation angle. The Lpp varies as a function of Dst index and magnetic local time (MLT), resulting in a tighter fit compared to the GCPM (Global Core Plasma Model). The distinctive bulge in the evening hours follows the level of solar activity. By extending the ellipse fitting from the equatorial plane to a 3D approach, the NEPPM also allows non-dipole B vectors, providing 3D positions on the plasmapause torus for given latitude, longitude, epoch and Dst.