| Magnetism and thermal evolution of the terrestrial planets DJ Stevenson, T Spohn, G Schubert Icarus 54 (3), 466-489, 1983 | 772 | 1983 |
| Initial results from the InSight mission on Mars WB Banerdt, SE Smrekar, D Banfield, D Giardini, M Golombek, ... Nature Geoscience 13 (3), 183-189, 2020 | 381 | 2020 |
| Subsurface oceans and deep interiors of medium-sized outer planet satellites and large trans-neptunian objects H Hussmann, F Sohl, T Spohn Icarus 185 (1), 258-273, 2006 | 336 | 2006 |
| Interior composition, structure and dynamics of the Galilean satellites G Schubert, JD Anderson, T Spohn, WB McKinnon Jupiter: The planet, satellites and magnetosphere 1, 281-306, 2004 | 312 | 2004 |
| The landing (s) of Philae and inferences about comet surface mechanical properties J Biele, S Ulamec, M Maibaum, R Roll, L Witte, E Jurado, P Muñoz, ... Science 349 (6247), aaa9816, 2015 | 310 | 2015 |
| Oceans in the icy Galilean satellites of Jupiter? T Spohn, G Schubert Icarus 161 (2), 456-467, 2003 | 302 | 2003 |
| Tidal dissipation, surface heat flow, and figure of viscoelastic models of Io M Segatz, T Spohn, MN Ross, G Schubert Icarus 75 (2), 187-206, 1988 | 301 | 1988 |
| The interior structure of Mars: Implications from SNC meteorites F Sohl, T Spohn Journal of Geophysical Research: Planets 102 (E1), 1613-1635, 1997 | 299 | 1997 |
| Constraints on the shallow elastic and anelastic structure of Mars from InSight seismic data P Lognonné, WB Banerdt, WT Pike, D Giardini, U Christensen, RF Garcia, ... Nature Geoscience 13 (3), 213-220, 2020 | 273 | 2020 |
| Implications from Galileo observations on the interior structure and chemistry of the Galilean satellites F Sohl, T Spohn, D Breuer, K Nagel Icarus 157 (1), 104-119, 2002 | 258 | 2002 |
| Early plate tectonics versus single‐plate tectonics on Mars: Evidence from magnetic field history and crust evolution D Breuer, T Spohn Journal of Geophysical Research: Planets 108 (E7), 2003 | 245 | 2003 |
| Thermal history of Mars and the sulfur content of its core G Schubert, T Spohn Journal of Geophysical Research: Solid Earth 95 (B9), 14095-14104, 1990 | 244 | 1990 |
| Thermal-orbital evolution of Io and Europa H Hussmann, T Spohn Icarus 171 (2), 391-410, 2004 | 238 | 2004 |
| The atmosphere of Mars as observed by InSight D Banfield, A Spiga, C Newman, F Forget, M Lemmon, R Lorenz, ... Nature Geoscience 13 (3), 190-198, 2020 | 235 | 2020 |
| Thermal histories, compositions and internal structures of the moons of the solar system. G Schubert, T Spohn, RT Reynolds Iau colloq. 77: Some background about satellites, 224-292, 1986 | 235 | 1986 |
| A seismic model of the lunar mantle and constraints on temperature and mineralogy J Gagnepain-Beyneix, P Lognonné, H Chenet, D Lombardi, T Spohn Physics of the Earth and Planetary Interiors 159 (3-4), 140-166, 2006 | 218 | 2006 |
| Mercury’s thermal history and the generation of its magnetic field G Schubert, MN Ross, DJ Stevenson, T Spohn Mercury 1988, 429-460, 1988 | 198 | 1988 |
| Thermal equilibrium states of Europa's ice shell: Implications for internal ocean thickness and surface heat flow H Hussmann, T Spohn, K Wieczerkowski Icarus 156 (1), 143-151, 2002 | 197 | 2002 |
| Thermal and mechanical properties of the near-surface layers of comet 67P/Churyumov-Gerasimenko T Spohn, J Knollenberg, AJ Ball, M Banaszkiewicz, J Benkhoff, M Grott, ... Science 349 (6247), aab0464, 2015 | 193 | 2015 |
| Mantle differentiation and thermal evolution of Mars, Mercury, and Venus T Spohn Icarus 90 (2), 222-236, 1991 | 166 | 1991 |
