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| Adiabatic heat flow in Mercury's core from electrical resistivity measurements of liquid Fe-8.5 wt%Si to 24 GPa [期刊论文] Earth and Planetary Science Letters, 2021-01-01, 568 Berrada M.; Secco R.A.; Yong W. View/Download:6/0 |
| New insights into temperature-dependent ice properties and their effect on ice shell convection for icy ocean worlds [期刊论文] Earth and Planetary Science Letters, 2021-01-01, 563 Carnahan E.; Wolfenbarger N.S.; Jordan J.S.; Hesse M.A. View/Download:6/0 |
| Did the cessation of convection in Mercury's mantle allow for a dynamo supporting increase in heat loss from its core? [期刊论文] Earth and Planetary Science Letters, 2021-01-01, 571 Guerrero J.M.; Lowman J.P.; Tackley P.J. View/Download:8/0 |
| Convective tipping point initiates localization of basaltic fissure eruptions [期刊论文] Earth and Planetary Science Letters, 2021-01-01, 553 Jones T.J.; Llewellin E.W. View/Download:10/0 |
| Transport properties of Fe-Ni-Si alloys at Earth's core conditions: Insight into the viability of thermal and compositional convection [期刊论文] Earth and Planetary Science Letters, 2021-01-01, 553 Zhang Y.; Hou M.; Driscoll P.; Salke N.P.; Liu J.; Greenberg E.; Prakapenka V.B.; Lin J.-F. View/Download:10/0 |
| Ice, Fire, or Fizzle: The Climate Footprint of Earth's Supercontinental Cycles [期刊论文] Geochemistry, Geophysics, Geosystems, 2020-01-01, 21 (2 Jellinek A.M.; Lenardic A.; Pierrehumbert R.T. View/Download:2/0 |
| Frazil ice growth and production during katabatic wind events in the Ross Sea, Antarctica [期刊论文] Cryosphere, 2020-01-01, 14 (10 Thompson L.; Smith M.; Thomson J.; Stammerjohn S.; Ackley S.; Loose B. View/Download:4/0 |
| Plate tectonics and mantle controls on plume dynamics [期刊论文] Earth and Planetary Science Letters, 2020-01-01, 547 Arnould M.; Coltice N.; Flament N.; Mallard C. View/Download:1/0 |
| Electrical resistivity of solid and liquid Pt: Insight into electrical resistivity of ε-Fe [期刊论文] Earth and Planetary Science Letters, 2020-01-01, 544 Ezenwa I.C.; Yoshino T. View/Download:2/0 |
| Early accretion of planetesimals unraveled by the thermal evolution of the parent bodies of magmatic iron meteorites [期刊论文] Earth and Planetary Science Letters, 2020-01-01, 548 Kaminski E.; Limare A.; Kenda B.; Chaussidon M. View/Download:0/0 |