Hori, K.; Wicht, J.; Christensen, U. R.: The effect of thermal boundary conditions on dynamos driven by internal heating. Phys. Earth Planet. Inter. 182 (1-2), pp. 85 - 97 (2010)
Hulot, G.; Balogh, A.; Christensen, U. R.; Constable, C. G.; Mandea, M.; Olsen, N.: The Earth's Magnetic Field in the Space Age: An Introduction to Terrestrial Magnetism. Space Science Reviews 155 (1-4), pp. 1 - 7 (2010)
King, E. M.; Soderlund, K. M.; Christensen, U. R.; Wicht, J.; Aurnou, J. M.: Convective heat transfer in planetary dynamo models. Geochem. Geophys. Geosyst. 11, Q06016 (2010)
Koch, C.; Kallenbach, R.; Christensen, U. R.: Mercurys global topography and tidal signal from laser altimetry by using a rectangular grid. Planetary and Space Science 58, pp. 2022 - 2030 (2010)
Koch, C.; Müller, J.; Christensen, U. R.; Kallenbach, R.: Bestimmung der Topographie und Lovezahl von Merkur aus simulierten Daten des BepiColombo-Laseraltimeters. Zeitschrift für Geodäsie, Geoinformation und Landmanagement 135 (3/2010), pp. 173 - 178 (2010)
Manglik, A.; Wicht, J.; Christensen, U. R.: A dynamo model with double diffusive convection for Mercury's core. Earth and Planetary Science Letters 289, pp. 619 - 628 (2010)
Reiners, A.; Christensen, U. R.: A magnetic field evolution scenario for brown dwarfs and giant extrasolar planets. Astronomy and Astrophysics 522, A13 (2010)
Rothery, D.; Marinangeli, L.; Anand, M.; Carpenter, J.; Christensen, U. R.; Crawford, I. A.; Sanctis, M. C. D.; Epifani, E. M.; Erard, S.; Frigeri, A.et al.; Fraser, G.; Hauber, E.; Helbert, J.; Hiesinger, H.; Joy, K.; Langevin, Y.; Massironi, M.; Milillo, A.; Mitrofanov, I.; Muinonen, K.; Näränen, J.; Pauselli, C.; Potts, P.; Warell, J.; Wurz, P.: Mercury's surface and composition to be studied by BepiColombo. Planetary and Space Science 58, pp. 21 - 39 (2010)
Weiss, B. P.; Gattacceca, J.; Stanley, S.; Rochette, P.; Christensen, U. R.: Paleomagnetic records of meteorites and early planetesimal differentiation. Space Science Reviews 152, pp. 341 - 390 (2010)
Reiners, A.; Basri, G.; Christensen, U. R.: Surprisingly Weak Magnetism on Young Accreting Brown Dwarfs. Astrophysical Journal 697 (1), pp. 373 - 379 (2009)
Various application review phases in 2025. PhD projects in cosmochemistry, planetary science, solar and stellar physics, helioseismology, asteroseismology, ...
The dwarf planet is a bizarre, cryovolcanic world. However, the organic deposits discovered on its surface so far are unlikely to originate from its interior.
The Uranian magnetic field is more expansive than previously thought, according to newly analyzed data from Voyager 2, making it easier to search for moons with oceans.