The projects
The projects contribute to four topics:
- Geomagnetic Field
- Gravity Field
- Ionospheric Current Systems
- Thermosphere/Ionosphere Coupling
- Coordination Funds
Detailed list of projects
C. Arras: Global observation of Ionospheric Sporadic E Layers and their relation to Atmospheric and ionospheric phenomena. More information about this project can be found here.
J. Baerenzung, M. Holschneider: Stochastic and physical modeling of the Earth's magnetic field. More information about this project can be found here.
J. Chau: The role of MLT dynamics at mid and high latitudes on the Ionosphere/Thermosphere weather II (DYNAMITE2). More information about this project can be found here.
J. Ebbing: Structure of the magnetic lithosphere from joint analysis of satellite and airborne data. More information about this project can be found here.
M. Ern: Thermosphere/Ionosphere Gravity wave Effects Resulting from Upward Coupling (TigerUC). More information about this project can be found here.
C. Gerhards, M. Rother: Time-Space Multiscale Separation of Ocean Tide Generated Magnetic Signals. More information about this project can be found here.
T. Gerzen: Multi-Satellite ionosphere-plasmasphere Electron density reconstruction (MuSE). More information about this project can be found here.
P. Hartogh: Investigation of geomagnetic influences on the vertical coupling by gravity waves in the thermosphere/ionosphere. More information about this project can be found here.
P. Hartogh: Coupling of solar and geomagnetic activity with the spatial distribution of trends in green-house gases in the upper atmosphere. More information about this project can be found here.
M. Holschneider, V. Lesur: Correlation based modelling of the Earth magnetic field. More information about this project can be found here.
M. Kaban: Dynamic model of a coupled system of the convecting mantle, lithosphere and ice shield of Antarctica (MANTIS-II). More information about this project can be found here.
M. Korte: Separating multi-decadal internal geomagnetic secular variation and magnetospheric field variations. More information about this project can be found here.
E. Kronberg: Ions in near-Earth space. More information about this project can be found here.
R. Rietbroek, J. Kusche, S. Schön, S. Danilov: Consistent Ocean Mass Time Series from LEO Potential Field Missions (CONTIM-2). More information about this project can be found here.
J. Matzka: Quantifying solar flux and geomagnetic main field influence on the equatorial thermosphere-ionosphere system for timescales complementary to satellite missions. More information about this project can be found here.
S. Sanchez, J. Wicht: Assimilating geomagnetic data with dynamo simulations: a window to the Earth's core dynamics. More information about this project can be found here.
J. Saynisch: Ocean signals in Earth's magnetic field (OceanMag-II). More information about this project can be found here.
A. Schlicht, M. Schmidt, C. Borries, J. Flury, R. Pail: Interactions of low-orbiting satellites with the surrounding thermosphere and ionosphere. More information about this project can be found here.
M. Schmidt, U. Hugentobler, J. Kusche, C. Stolle:Development of High-precision Thermosphere Models for Improving Precise Orbit Determination of Low-Earth-Orbiting Satellites (TIPOD). More information about this project can be found here.
M. Sinnhuber: The impact of geomagnetic activity on thermospheric composition and circulation, and its coupling to the middle and upper atmosphere. More information about this project can be found here.
C. Stolle: Spatiotemporal variations of electromagnetic characteristics of equatorial plasma depletions. More information about this project can be found here.
C. Stolle: Coordination funds. More information about this project can be found here.
C. Stolle, F. Vervelidou: Bayesian inversion for a global apparent magnetic susceptibility model based on quiet-time satellite magnetic field measurements. More information about this project can be found here.
J. Vogt: Multi-Spacecraft Investigations of Coupling at Auroral Latitudes (MuSICAL): Field-Aligned Current Energetics and Scales. More information about this project can be found here.