Walsh, K. J., Morbidelli, A., Raymond, S. N., O’Brien, D. P. & Mandell, A. M. A low mass for Mars from Jupiter’s early gas-driven migration.
Nature
475
, 206?209 (2011)
Article
ADS
CAS
Google Scholar
Campins, H. et al. Water ice and organics on the surface of the asteroid 24 Themis.
Nature
464
, 1320?1321 (2010)
Article
ADS
CAS
Google Scholar
Rivkin, A. S. & Emery, J. P. Detection of ice and organics on an asteroidal surface.
Nature
464
, 1322?1323 (2010)
Article
ADS
CAS
Google Scholar
Licandro, J. et al. (65) Cybele: detection of small silicate grains, water-ice, and organics.
Astron. Astrophys.
525
, A34 (2011)
Article
Google Scholar
Jewitt, D. The active asteroids.
Astron. J.
143
, 66 (2012)
Article
ADS
Google Scholar
Lebofsky, L. A., Feierberg, M. A., Tokunaga, A. T., Larson, H. P. & Johnson, J. R. The 1.7- to 4.2-micron spectrum of asteroid 1 Ceres: evidence for structural water in clay minerals.
Icarus
48
, 453?459 (1981)
Article
ADS
CAS
Google Scholar
King, T. V. V., Clark, R. N., Calvin, W. M., Sherman, D. M. & Brown, R. H. Evidence for ammonium-bearing minerals on Ceres.
Science
255
, 1551?1553 (1992)
Article
ADS
CAS
Google Scholar
Milliken, R. E. & Rivkin, A. S. Brucite and carbonate assemblages from altered olivine-rich materials on Ceres.
Nature Geosci.
2
, 258?261 (2009)
Article
ADS
CAS
Google Scholar
Thomas, P. C. et al. Differentiation of the asteroid Ceres as revealed by its shape.
Nature
437
, 224?226 (2005)
Article
ADS
CAS
Google Scholar
McCord, T. B. & Sotin, C. Ceres: evolution and current state.
J. Geophys. Res.
110
, E05009 (2005)
Article
ADS
Google Scholar
Castillo-Rogez, J. C. & McCord, T. B. Ceres’ evolution and present state constrained by shape data.
Icarus
205
, 443?459 (2010)
Article
ADS
CAS
Google Scholar
A’Hearn, M. F. & Feldman, P. D. Water vaporization on Ceres.
Icarus
98
, 54?60 (1992)
Article
ADS
Google Scholar
Rousselot, P. et al. A search for water vaporization on Ceres.
Astron. J.
142
, 125 (2011)
Article
ADS
Google Scholar
Carry, B. et al. Near-infrared mapping and physical properties of the dwarf-planet Ceres.
Astron. Astrophys.
478
, 235?244 (2008)
Article
ADS
CAS
Google Scholar
Carry, B. et al. The remarkable surface homogeneity of the Dawn mission target (1) Ceres.
Icarus
217
, 20?26 (2012)
Article
ADS
Google Scholar
de Graauw et al. The Herschel-Heterodyne Instrument for the Far-Infrared (HIFI).
Astron. Astrophys.
518
, L6 (2010)
Article
ADS
Google Scholar
Pilbratt, G. L. et al. Herschel Space Observatory. An ESA facility for far-infrared and submillimetre astronomy.
Astron. Astrophys.
518
, L1 (2010)
Article
ADS
Google Scholar
Carry, B. Density of asteroids.
Planet. Space Sci.
73
, 98?118 (2012)
Article
ADS
Google Scholar
Li, J.-Y. et al. Photometric analysis of 1 Ceres and surface mapping from HST observations.
Icarus
182
, 143?160 (2006)
Article
ADS
Google Scholar
Biver, N. et al. The 1995?2002 long-term monitoring of comet C/1995 O1 (Hale?Bopp) at radio wavelength.
Earth Moon Planets
90
, 5?14 (2002)
Article
ADS
CAS
Google Scholar
Crifo, J. F., Loukianov, G. A., Rodionov, A. V. & Zakharov, V. V. Comparison between Navier?Stokes and direct Monte-Carlo simulations of the circumnuclear coma I. Homogeneous, spherical sources.
Icarus
156
, 249?268 (2002)
Article
ADS
CAS
Google Scholar
Zakharov, V., Bockelee-Morvan, D., Biver, N., Crovisier, J. & Lecacheux, A. Radiative transfer simulation of water rotational excitation in comets. Comparison of the Monte Carlo and escape probability methods.
Astron. Astrophys.
473
, 303?310 (2007)
Article
ADS
CAS
Google Scholar
Fanale, F. P. & Salvail, J. R. The water regime of asteroid (1) Ceres.
Icarus
82
, 97?110 (1989)
Article
ADS
CAS
Google Scholar
Peale, S. J., Cassen, P. & Reynolds, R. T. Melting of Io by tidal dissipation.
Science
203
, 892?894 (1979)
Article
ADS
CAS
Google Scholar
Howett, C. J. A., Spencer, J. R., Pearl, J. & Segura, M. High heat flow from Enceladus' south polar region measured using 10?600 cm-1 Cassini/CIRS data.
J. Geophys. Res.
116
, E03003 (2011)
Article
ADS
Google Scholar
McCord, T. B., Castillo-Rogez, J. & Rivkin, A. Ceres: its origin, evolution and structure and
Dawn’s
potential contribution.
Space Sci. Rev.
163
, 63?76 (2011)
Article
ADS
Google Scholar
Russell, C. T. & Raymond, C. A. The Dawn mission to Vesta and Ceres.
Space Sci. Rev.
163
, 3?23 (2011)
Article
ADS
Google Scholar
Gounelle, M. et al. in
The Solar System Beyond Neptune
(eds Barucci, M. A., Boehnhardt, H., Cruikshank, D. P. & Morbidelli, A. ) 525?541 (Univ. Arizona Press, 2008)
Chamberlain, M. A., Sykes, M. V. & Esquerdo, G. A. Ceres light curve analysis?period determination.
Icarus
188
, 451?456 (2007).
Article
ADS
Google Scholar
Muller, T. G. et al. Herschel celestial calibration sources: four large main-belt asteroids as prime flux calibrators for the far-IR/sub-mm range.
Exp. Astron.
http://dx.doi.org/10.1007/s10686-013-9357-y
(in the press)