gael choblet
gael choblet
CNRS-Universite de Nantes
Bestätigte E-Mail-Adresse bei
Zitiert von
Zitiert von
Macromolecular organic compounds from the depths of Enceladus
F Postberg, N Khawaja, B Abel, G Choblet, CR Glein, MS Gudipati, ...
Nature 558 (7711), 564-568, 2018
Tidally heated convection: Constraints on Europa's ice shell thickness
G Tobie, G Choblet, C Sotin
Journal of Geophysical Research: Planets 108 (E11), 2003
Powering prolonged hydrothermal activity inside Enceladus
G Choblet, G Tobie, C Sotin, M Běhounková, O Čadek, F Postberg, ...
Nature Astronomy 1 (12), 841-847, 2017
Enceladus's internal ocean and ice shell constrained from Cassini gravity, shape, and libration data
O Čadek, G Tobie, T Van Hoolst, M Massé, G Choblet, A Lefèvre, G Mitri, ...
Geophysical Research Letters 43 (11), 5653-5660, 2016
Interior structure of terrestrial planets: Modeling Mars' mantle and its electromagnetic, geodetic, and seismic properties
O Verhoeven, A Rivoldini, P Vacher, A Mocquet, G Choblet, M Menvielle, ...
Journal of Geophysical Research: Planets 110 (E4), 2005
Mantle upwelling and melting beneath slow spreading centers: Effects of variable rheology and melt productivity
G Choblet, EM Parmentier
Earth and Planetary Science Letters 184 (3-4), 589-604, 2001
Tidally-induced melting events as the origin of south-pole activity on Enceladus
M Běhounková, G Tobie, G Choblet, O Čadek
Icarus, 2012
3D thermal convection with variable viscosity: can transient cooling be described by a quasi-static scaling law?
G Choblet, C Sotin
Physics of the Earth and Planetary Interiors 119 (3-4), 321-336, 2000
Coupling mantle convection and tidal dissipation: Applications to Enceladus and Earth‐like planets
M Běhounková, G Tobie, G Choblet, O Čadek
Journal of Geophysical Research: Planets 115 (E9), 2010
OEDIPUS: a new tool to study the dynamics of planetary interiors
G Choblet, O Čadek, F Couturier, C Dumoulin
Geophysical Journal International 170 (1), 9-30, 2007
Present-day trends of vertical ground motion along the coast lines
E Ostanciaux, L Husson, G Choblet, C Robin, K Pedoja
Earth-Science Reviews 110 (1-4), 74-92, 2012
Implications of rotation, orbital states, energy sources, and heat transport for internal processes in icy satellites
H Hussmann, G Choblet, V Lainey, DL Matson, C Sotin, G Tobie, ...
Space science reviews 153 (1), 317-348, 2010
Timing of water plume eruptions on Enceladus explained by interior viscosity structure
M Běhounková, G Tobie, O Čadek, G Choblet, C Porco, F Nimmo
Nature Geoscience 8 (8), 601-604, 2015
Heat transport in the high-pressure ice mantle of large icy moons
G Choblet, G Tobie, C Sotin, K Kalousova, O Grasset
Icarus 285, 252-262, 2017
Thermally anomalous features in the subsurface of Enceladus’s south polar terrain
A Le Gall, C Leyrat, MA Janssen, G Choblet, G Tobie, O Bourgeois, ...
Nature Astronomy 1 (4), 1-5, 2017
Modelling thermal convection with large viscosity gradients in one block of the ‘cubed sphere’
G Choblet
Journal of Computational Physics 205 (1), 269-291, 2005
Long-term stability of Enceladus’ uneven ice shell
O Čadek, O Souček, M Běhounková, G Choblet, G Tobie, J Hron
Icarus 319, 476-484, 2019
Two-phase convection in Ganymede’s high-pressure ice layer—implications for its geological evolution
K Kalousová, C Sotin, G Choblet, G Tobie, O Grasset
Icarus 299, 133-147, 2018
Ice melting and downward transport of meltwater by two‐phase flow in Europa's ice shell
K Kalousová, O Souček, G Tobie, G Choblet, O Čadek
Journal of Geophysical Research: Planets 119 (3), 532-549, 2014
Coupling of thermal evolution and despinning of early Iapetus
G Robuchon, G Choblet, G Tobie, O Čadek, C Sotin, O Grasset
Icarus 207 (2), 959-971, 2010
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20