Cao, H.; Aurnou, J. M.; Wicht, J.; Dietrich, W.; Soderlund, K. M.; Russell, C. T.: A dynamo explanation for Mercury's anomalous magnetic field. Geophysical Research Letters 41 (12), pp. 4127 - 4134 (2014)
Duling, S.; Saur, J.; Wicht, J.: Consistent boundary conditions at nonconducting surfaces of planetary bodies: Applications in a new Ganymede MHD model. Journal Geophysical Research 119 (6), pp. 4412 - 4440 (2014)
Gastine, T.; Wicht, J.; Duarte, L. D. V.; Heimpel, M.; Becker, A.: Explaining Jupiter's magnetic field and equatorial jet dynamics. Geophysical Research Letters 41 (15), pp. 5410 - 5419 (2014)
Hori, K.; Wicht, J.; Dietrich, W.: Ancient dynamos of terrestrial planets more sensitive to core-mantle boundary heat flows. Planetary and Space Science 98, pp. 30 - 40 (2014)
Soderlund, K. M.; Schmidt, B. E.; Wicht, J.; Blankenship, D. D.: Ocean-driven heating of Europa's icy shell at low latitudes. Nature Geoscience 7 (1), pp. 16 - 19 (2014)
Dietrich, W.; Wicht, J.: A hemispherical dynamo model: Implications for the Martian crustal magnetization. Phys. Earth Planet. Inter. 217, pp. 10 - 21 (2013)
Duarte, L. D. V.; Gastine, T.; Wicht, J.: Anelastic dynamo models with variable electrical conductivity: An application to gas giants. Phys. Earth Planet. Inter. 222, pp. 22 - 34 (2013)
Hori, K.; Wicht, J.: Subcritical dynamos in the early Mars' core: Implications for cessation of the past Martian dynamo. Phys. Earth Planet. Inter. 219, pp. 21 - 33 (2013)
Cao, H.; Russell, C. T.; Wicht, J.; Christensen, U. R.; Dougherty, M. K.: Saturn's high degree magnetic moments: Evidence for a unique planetary dynamo. Icarus 221, pp. 388 - 394 (2012)
French, M.; Becker, A.; Lorenzen, W.; Nettelmann, N.; Bethkenhagen, M.; Wicht, J.; Redmer, R.: Ab Initio Simulations for Material Properties along the Jupiter Adiabat. Astrophysical Journal, Suppl. Ser. 202 (1), 5 (2012)
Gastine, T.; Duarte, L.; Wicht, J.: Dipolar versus multipolar dynamos: the influence of the background density stratification. Astronomy and Astrophysics 546, A19 (2012)
Analyzing the high spatial resolution solar Ca II H and K emission data obtained by the SUNRISE mission and building a model of other stars more active than the Sun
For PhD students whose project is already funded and who are applying for admission to the IMPRS, or for applicants who want to bring their own funding and their own project idea to the IMPRS.