Y. Alibert, O. Mousis, and W. Benz, Modeling the Jovian subnebula. I. Thermodynamic conditions and migration of proto-satellites, Astronomy&Astrophysics, vol.439, pp.1205-1213, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00085243

K. Altwegg, H. Balsiger, A. Bar-nun, J. J. Berthelier, A. Bieler et al., Science, vol.67, p.1261952, 2015.

J. D. Anderson, R. A. Jacobson, T. P. Mcelrath, W. B. Moore, G. Schubert et al., Shape, Mean Radius, Gravity Field, and Interior Structure of Callisto, Icarus, vol.153, pp.157-161, 2001.

J. D. Anderson, T. V. Johnson, G. Schubert, S. Asmar, R. A. Jacobson et al., Amalthea's Density Is Less Than That of Water, Science, vol.308, pp.1291-1293, 2005.

T. P. Andert, P. Rosenblatt, M. Pätzold, B. Häusler, V. Dehant et al., Precise mass determination and the nature of Phobos, Geophysical Research Letters, vol.37, p.9202, 2010.

P. J. Armitage, Astrophysics of Planet Formation, 2009.

J. Auffinger and G. Laibe, Linear growth of streaming instability in pressure bumps, Monthly Notices of the Royal Astronomical Society, vol.473, pp.796-805, 2018.

X. Bai, Global Simulations of the Inner Regions of Protoplanetary Disks with Comprehensive Disk Microphysics, The Astrophysical Journal, vol.845, p.75, 2017.

K. Baillié and S. Charnoz, Time Evolution of a Viscous Protoplanetary Disk with a Free Geometry: Toward a More Self-consistent Picture, The Astrophysical Journal, vol.786, p.35, 2014.

A. Steven, J. F. Balbus, and . Hawley, A Powerful Local Shear Instability in Weakly Magnetized Disks. I. Linear Analysis, The Astrophysical Journal, vol.376, p.214, 1991.

A. C. Barr and R. M. Canup, Constraints on gas giant satellite formation from the interior states of partially differentiated satellites, Icarus, vol.198, pp.163-177, 2008.

K. Batygin, On the Terminal Rotation Rates of Giant Planets, The Astronomical Journal, vol.155, p.178, 2018.

W. Béthune, G. Lesur, and J. Ferreira, Self-organisation in protoplanetary discs. Global, non-stratified Hall-MHD simulations, Astronomy & Astrophysics, vol.589, p.87, 2016.

W. Béthune, G. Lesur, and J. Ferreira, Global simulations of protoplanetary disks with net magnetic flux. I. Non-ideal MHD case, Astronomy&Astrophysics, vol.600, p.75, 2017.

A. Bieler, K. Altwegg, H. Balsiger, A. Bar-nun, J. J. Berthelier et al., Abundant molecular oxygen in the coma of comet 67P/ChuryumovGerasimenko, Nature, vol.526, pp.678-681, 2015.

T. Birnstiel, C. P. Dullemond, and F. Brauer, Gas-and dust evolution in protoplanetary disks, Astronomy&Astrophysics, vol.513, p.79, 2010.

T. Birnstiel, H. Klahr, and B. Ercolano, A simple model for the evolution of the dust population in protoplanetary disks, Astronomy&Astrophysics, vol.539, p.148, 2012.

B. Bitsch, A. Johansen, M. Lambrechts, and A. Morbidelli, The structure of protoplanetary discs around evolving young stars, Astronomy & Astrophysics, vol.575, p.28, 2015.

B. Bitsch, A. Morbidelli, A. Johansen, E. Lega, M. Lambrechts et al., Pebble-isolation mass: Scaling law and implications for the formation of superEarths and gas giants, Astronomy&Astrophysics, vol.612, p.30, 2018.

B. Bitsch, M. Lambrechts, and A. Johansen, The growth of planets by pebble accretion in evolving protoplanetary discs, Astronomy&Astrophysics, vol.582, p.112, 2015.

A. Bouquet, O. Mousis, B. Teolis, G. Nicolaou, O. Ozgurel et al., Limits on the contribution of endogenic radiolysis to the presence of molecular oxygen in comet 67P/Churyumov-Gerasimenko, The Astrophysical Journal, 2018.

C. Benjamin, S. J. Bromley, and . Kenyon, Terrestrial Planet Formation: Dynamical Shake-up and the Low Mass of Mars, The Astronomical Journal, vol.153, p.216, 2017.

P. N. Brown, G. D. Byrne, and A. C. Hindmarsh, Vode: A variable-coefficient ode solver, SIAM J. Sci. Stat. Comput, vol.10, issue.5, pp.1038-1051, 1989.

H. Thomas, K. M. Burbine, and . O'brien, Determining the possible building blocks of the Earth and Mars, Meteoritics and Planetary Science, vol.39, pp.667-681, 2004.

J. A. Burns, Where are the Satellites of the Inner Planets?, Nature Physical Science, vol.242, pp.23-25, 1973.

R. M. Canup and W. R. Ward, Formation of the Galilean Satellites: Conditions of Accretion, The Astronomical Journal, vol.124, pp.3404-3423, 2002.

R. M. Canup and W. R. Ward, A common mass scaling for satellite systems of gaseous planets, Nature, vol.441, pp.834-839, 2006.

R. M. Canup and W. R. Ward, Origin of Europa and the Galilean Satellites, p.59, 2009.

R. Canup and J. Salmon, Origin of Phobos and Deimos by the impact of a Vesta-to-Ceres sized body with Mars, Science Advances, vol.4, p.6887, 2018.

R. M. Canup, C. Visscher, J. Salmon, and B. Fegley, Lunar volatile depletion due to incomplete accretion within an impact-generated disk, Nature Geoscience, vol.8, pp.918-921, 2015.

D. Carrera, A. Johansen, and M. B. Davies, How to form planetesimals from mm-sized chondrules and chondrule aggregates, Astronomy&Astrophysics, vol.579, p.43, 2015.

B. Carry, Density of asteroids, Planetary and Space Science, vol.73, pp.98-118, 2012.

K. V. Cashman, Relationship between plagioclase crystallization and cooling rate in basaltic melts, Contributions to Mineralogy and Petrology, vol.113, pp.126-142, 1993.

K. V. Cashman and B. D. Marsh, Crystal size distribution (CSD) in rocks and the kinetics and dynamics of crystallization II: Makaopuhi lava lake, Contributions to Mineralogy and Petrology, vol.99, pp.292-305, 1988.

A. Cazenave, A. Dobrovolskis, and B. Lago, Orbital history of the Martian satellites with inferences on their origin, Icarus, vol.44, issue.80, pp.90140-90142, 1980.

S. Charnoz, J. Salmon, and A. Crida, The recent formation of Saturn's moonlets from viscous spreading of the main rings, Nature, vol.465, pp.752-754, 2010.

S. Charnoz, L. Fouchet, J. Aleon, and M. Moreira, Threedimensional Lagrangian Turbulent Diffusion of Dust Grains in a Protoplanetary Disk: Method and First Applications, The Astrophysical Journal, vol.737, p.33, 2011.
URL : https://hal.archives-ouvertes.fr/in2p3-00623484

E. Chiang and A. N. Youdin, Forming Planetesimals in Solar and Extrasolar Nebulae, Annual Review of Earth and Planetary Sciences, vol.38, pp.493-522, 2010.

F. J. Ciesla, Two-dimensional transport of solids in viscous protoplanetary disks, Icarus, vol.200, pp.655-671, 2009.

F. J. Ciesla, Residence Times of Particles in Diffusive Protoplanetary Disk Environments. I. Vertical Motions, The Astrophysical Journal, vol.723, pp.514-529, 2010.

F. J. Ciesla, Residence Times of Particles in Diffusive Protoplanetary Disk Environments. II. Radial Motions and Applications to Dust Annealing, The Astrophysical Journal, vol.740, p.9, 2011.

R. I. Citron, H. Genda, and S. Ida, Formation of Phobos and Deimos via a giant impact, Icarus, vol.252, pp.334-338, 2015.

R. A. Craddock, Are Phobos and Deimos the result of a giant impact, Icarus, vol.211, pp.1150-1161, 2011.

P. Cresswell and R. P. Nelson, Three-dimensional simulations of multiple protoplanets embedded in a protostellar disc, Astronomy & Astrophysics, vol.482, pp.677-690, 2008.

A. Crida and S. Charnoz, Formation of Regular Satellites from Ancient Massive Rings in the Solar System, Science, vol.338, p.1196, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00779116

M. ?uk and J. A. Burns, Gas-drag-assisted capture of Himalia's family, Icarus, vol.167, pp.369-381, 2004.

G. Angelo and M. Podolak, Capture and Evolution of Planetesimals in Circumjovian Disks, The Astrophysical Journal, vol.806, p.203, 2015.

N. Dauphas and A. Pourmand, Hf-W-Th evidence for rapid growth of Mars and its status as a planetary embryo, Nature, vol.473, pp.489-492, 2011.

A. D. Sio, L. Tozzetti, Z. Wu, A. Marcelli, M. C. Guidi et al., Physical vapor deposition synthesis of amorphous silicate layers and nanostructures as cosmic dust analogs, Astronomy&Astrophysics, vol.589, p.4, 2016.

R. Deienno, A. Morbidelli, R. S. Gomes, and D. Nesvorný, Constraining the Giant Planets Initial Configuration from Their Evolution: Implications for the Timing of the Planetary Instability, The Astronomical Journal, vol.153, p.153, 2017.

F. E. Demeo and B. Carry, The taxonomic distribution of asteroids from multifilter all-sky photometric surveys, Icarus, vol.226, pp.723-741, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00844029

F. E. Demeo and B. Carry, Solar System evolution from compositional mapping of the asteroid belt, Nature, vol.505, pp.629-634, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01019270

J. Dr¸a?kowskadr¸a?kowska and Y. Alibert, Planetesimal formation starts at the snow line, Astronomy&Astrophysics, vol.608, p.92, 2017.

J. Dr¸a?kowskadr¸a?kowska, Y. Alibert, and B. Moore, Close-in planetesimal formation by pileup of drifting pebbles, Astronomy&Astrophysics, vol.594, p.105, 2016.

P. C. Duffell, Z. Haiman, A. I. Macfadyen, D. J. .-d'orazio, and B. D. Farris, The Migration of Gap-opening Planets is Not Locked to Viscous Disk Evolution, The Astrophysical Journal Letters, vol.792, p.10, 2014.

C. Dürmann and W. Kley, Migration of massive planets in accreting disks, Astronomy&Astrophysics, vol.574, p.52, 2015.

A. Dutrey, D. Semenov, E. Chapillon, U. Gorti, S. Guilloteau et al., Physical and Chemical Structure of Planet-Forming Disks Probed by Millimeter Observations and Modeling, Protostars and Planets VI, p.317, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00949240

C. A. Dwyer, F. Nimmo, M. Ogihara, and S. Ida, The influence of imperfect accretion and radial mixing on ice:rock ratios in the Galilean satellites, Icarus, vol.225, pp.390-402, 2013.

P. R. Estrada and I. Mosqueira, A gas-poor planetesimal capture model for the formation of giant planet satellite systems, Icarus, vol.181, pp.486-509, 2006.

C. Fitoussi, B. Bourdon, and X. Wang, The building blocks of Earth and Mars: A close genetic link, Earth and Planetary Science Letters, vol.434, pp.151-160, 2016.

M. C. Flemings, R. G. Riek, and K. P. Young, Rheocasting. Materials Science and Engineering, vol.25, issue.76, pp.90057-90061, 1976.

A. A. Fraeman, R. E. Arvidson, S. L. Murchie, A. Rivkin, J. P. Bibring et al., Analysis of disk-resolved OMEGA and CRISM spectral observations of Phobos and Deimos, Journal of Geophysical Research (Planets), vol.117, pp.0-15, 2012.

A. A. Fraeman, S. L. Murchie, R. E. Arvidson, R. N. Clark, R. V. Morris et al., Spectral absorptions on Phobos and Deimos in the visible/near infrared wavelengths and their compositional constraints, Icarus, vol.229, pp.196-205, 2014.

N. Fray and B. Schmitt, Sublimation of ices of astrophysical interest: A bibliographic review, Planetary and Space Science, vol.57, pp.2053-2080, 2009.
URL : https://hal.archives-ouvertes.fr/insu-00388027

S. Fromang, W. Lyra, and F. Masset, Meridional circulation in turbulent protoplanetary disks, Astronomy&Astrophysics, vol.534, p.107, 2011.

Y. I. Fujii, H. Kobayashi, S. Z. Takahashi, and O. Gressel, Orbital Evolution of Moons in Weakly Accreting Circumplanetary Disks, The Astronomical Journal, vol.153, p.194, 2017.

T. Fujita, K. Ohtsuki, T. Tanigawa, and R. Suetsugu, Capture of Planetesimals by Gas Drag from Circumplanetary Disks, The Astronomical Journal, vol.146, p.140, 2013.

H. P. Gail, Chemical reactions in protoplanetary accretion disks. IV. Multicomponent dust mixture, Astronomy&Astrophysics, vol.332, pp.1099-1122, 1998.

H. P. Gail and E. Sedlmayr, Dust formation in stellar winds. IV. Heteromolecular carbon grain formation and growth, Astronomy&Astrophysics, vol.206, pp.153-168, 1988.

H. P. Gail, R. Keller, and E. Sedlmayr, Dust formation in stellar winds. I-A rapid computational method and application to graphite condensation, Astronomy&Astrophysics, vol.133, pp.320-332, 1984.

C. F. Gammie, Layered Accretion in T Tauri Disks, The Astrophysical Journal, vol.457, p.355, 1996.

M. Giuranna, T. L. Roush, T. Duxbury, R. C. Hogan, C. Carli et al., Compositional interpretation of PFS/MEx and TES/MGS thermal infrared spectra of Phobos, Planetary and Space Science, vol.59, pp.1308-1325, 2011.

P. Goldreich and S. Tremaine, Disk-satellite interactions, The Astrophysical Journal, vol.241, pp.425-441, 1980.

P. Goldreich, Inclination of satellite orbits about an oblate precessing planet, The Astronomical Journal, vol.70, issue.5, 1965.

R. Gomes, H. F. Levison, K. Tsiganis, and A. Morbidelli, Origin of the cataclysmic Late Heavy Bombardment period of the terrestrial planets, Nature, vol.435, pp.466-469, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00388274

R. González-guzmán, NORRRM: A Free Software to Calculate the CIPW Norm, Open Journal of Geology, vol.6, pp.30-38, 2016.

O. Gressel, R. P. Nelson, N. J. Turner, and U. Ziegler, Global Hydromagnetic Simulations of a Planet Embedded in a Dead Zone: Gap Opening, Gas Accretion, and Formation of a Protoplanetary Jet, The Astrophysical Journal, vol.779, p.59, 2013.

T. Guillot, S. Ida, and C. W. Ormel, On the filtering and processing of dust by planetesimals. I. Derivation of collision probabilities for non-drifting planetesimals
URL : https://hal.archives-ouvertes.fr/hal-01067951

, Astronomy & Astrophysics, vol.572, p.72, 2014.

T. Guillot, THE INTERIORS OF GIANT PLANETS: Models and Outstanding Questions, Annual Review of Earth and Planetary Sciences, vol.33, pp.493-530, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00388278

M. S. Brad and . Hansen, Formation of the Terrestrial Planets from a Narrow Annulus, The Astrophysical Journal, vol.703, pp.1131-1140, 2009.

L. Hartmann, G. Herczeg, and N. Calvet, Accretion onto Pre-MainSequence Stars, Annual Review of Astronomy and Astrophysics, vol.54, pp.135-180, 2016.

K. William, D. R. Hartmann, and . Davis, Satellite-Sized Planetesimals and Lunar Origin, Icarus, vol.24, pp.90070-90076, 1975.

J. F. Hawley, C. F. Gammie, and S. A. Balbus, Local Threedimensional Magnetohydrodynamic Simulations of Accretion Disks, The Astrophysical Journal, vol.440, p.742, 1995.

Y. Hori and M. Ikoma, Gas giant formation with small cores triggered by envelope pollution by icy planetesimals, Monthly Notices of the Royal Astronomical Society, vol.416, pp.1419-1429, 2011.

X. Jia, M. G. Kivelson, K. K. Khurana, and W. S. Kurth, Evidence of a plume on Europa from Galileo magnetic and plasma wave signatures, Nature Astronomy, vol.2, pp.459-464, 2018.

A. Johansen, A. N. Youdin, and Y. Lithwick, Adding particle collisions to the formation of asteroids and Kuiper belt objects via streaming instabilities, Astronomy&Astrophysics, vol.537, p.125, 2012.

A. Johansen, J. Blum, H. Tanaka, C. Ormel, M. Bizzarro et al., The Multifaceted Planetesimal Formation Process. Protostars and Planets VI, pp.547-570, 2014.

A. Johansen, M. Low, P. Lacerda, and M. Bizzarro, Growth of asteroids, planetary embryos, and Kuiper belt objects by chondrule accretion, Science Advances, vol.1, p.1500109, 2015.

A. Johansen and H. Klahr, Planetesimal Formation Through Streaming and Gravitational Instabilities, Earth Moon and Planets, vol.108, pp.39-43, 2011.

A. Johansen and M. Lambrechts, Forming Planets via Pebble Accretion, Annual Review of Earth and Planetary Sciences, vol.45, pp.359-387, 2017.

D. Kazuhiro, H. Kanagawa, E. Tanaka, and . Szuszkiewicz, Radial Migration of Gap-opening Planets in Protoplanetary Disks. I. The Case of a Single Planet, The Astrophysical Journal, vol.861, p.140, 2018.

. Ch, H. P. Keller, and . Gail, Radial mixing in protoplanetary accretion disks. VI. Mixing by large-scale radial flows, Astronomy&Astrophysics, vol.415, pp.1177-1185, 2004.

H. Klahr and W. Kley, 3D-radiation hydro simulations of disk-planet interactions. I. Numerical algorithm and test cases, Astronomy&Astrophysics, vol.445, pp.747-758, 2006.

H. Kobayashi, C. W. Ormel, and S. Ida, Rapid Formation of Saturn after Jupiter Completion, The Astrophysical Journal, vol.756, p.70, 2012.

C. M. Koepferl, B. Ercolano, J. Dale, P. S. Teixeira, T. Ratzka et al., Disc clearing of young stellar objects: evidence for fast inside-out dispersal, Monthly Notices of the Royal Astronomical Society, vol.428, pp.3327-3354, 2013.

E. Kokubo, S. Ida, and J. Makino, Evolution of a Circumterrestrial Disk and Formation of a Single Moon, Icarus, vol.148, pp.419-436, 2000.

D. G. Korycansky, P. Bodenheimer, and J. B. Pollack, Numerical models of giant planet formation with rotation, Icarus, vol.92, issue.91, p.90048, 1991.

G. A. Krasinsky, E. V. Pitjeva, M. V. Vasilyev, and E. I. Yagudina, Hidden Mass in the Asteroid Belt, Icarus, vol.158, pp.98-105, 2002.

K. A. Kretke and H. F. Levison, Challenges in Forming the Solar System's Giant Planet Cores via Pebble Accretion, The Astronomical Journal, vol.148, p.109, 2014.

S. Krijt, F. J. Ciesla, and E. A. Bergin, Tracing Water Vapor and Ice During Dust Growth, The Astrophysical Journal, vol.833, p.285, 2016.

T. S. Kruijer, C. Burkhardt, G. Budde, and T. Kleine, Age of Jupiter inferred from the distinct genetics and formation times of meteorites, Proceedings of the National Academy of Science, vol.114, pp.6712-6716, 2017.

M. Lambrechts and A. Johansen, Rapid growth of gas-giant cores by pebble accretion, Astronomy&Astrophysics, vol.544, p.32, 2012.

M. Lambrechts and A. Johansen, Forming the cores of giant planets from the radial pebble flux in protoplanetary discs, Astronomy&Astrophysics, vol.572, p.107, 2014.

M. Lambrechts, A. Johansen, and A. Morbidelli, Separating gas-giant and icegiant planets by halting pebble accretion, Astronomy&Astrophysics, vol.572, p.35, 2014.

D. J. Lawrence, W. C. Feldman, J. O. Goldsten, S. Maurice, P. N. Peplowski et al., Evidence for Water Ice Near Mercury's North Pole from MESSENGER Neutron Spectrometer Measurements, Science, vol.339, p.292, 2013.

M. H. Lee and S. J. Peale, Dynamics and Origin of the 2:1 Orbital Resonances of the GJ 876 Planets, The Astrophysical Journal, vol.567, pp.596-609, 2002.

H. F. Levison, E. Thommes, and M. J. Duncan, Modeling the Formation of Giant Planet Cores. I. Evaluating Key Processes, The Astronomical Journal, vol.139, pp.1297-1314, 2010.

H. F. Levison, K. A. Kretke, and M. J. Duncan, Growing the gas-giant planets by the gradual accumulation of pebbles, Nature, vol.524, pp.322-324, 2015.

H. F. Levison, W. F. Bottke, M. Gounelle, A. Morbidelli, D. Nesvorný et al., Contamination of the asteroid belt by primordial trans-Neptunian objects, Nature, vol.460, pp.364-366, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00457412

D. N. Lin and J. Papaloizou, On the tidal interaction between protoplanets and the protoplanetary disk. III-Orbital migration of protoplanets, The Astrophysical Journal, vol.309, pp.846-857, 1986.

J. J. Lissauer, Urey prize lecture: On the diversity of plausible planetary systems, Icarus, vol.114, pp.217-236, 1995.

J. J. Lissauer, Planet formation, Annual Review of Astronomy and Astrophysics, vol.31, pp.129-174, 1993.

B. Liu, C. W. Ormel, and D. N. Lin, Dynamical rearrangement of super-Earths during disk dispersal. I. Outline of the magnetospheric rebound model, Astronomy&Astrophysics, vol.601, p.15, 2017.

K. Lodders, An Oxygen Isotope Mixing Model for the Accretion and Composition of Rocky Planets, Space Science Reviews, vol.92, pp.341-354, 2000.

K. Lodders, Solar System Abundances and Condensation Temperatures of the Elements, The Astrophysical Journal, vol.591, pp.1220-1247, 2003.

J. I. Lunine and D. J. Stevenson, Formation of the Galilean satellites in a gaseous nebula, Icarus, vol.52, pp.14-39, 1982.

D. Lynden-bell and J. E. Pringle, The evolution of viscous discs and the origin of the nebular variables, Monthly Notices of the Royal Astronomical Society, vol.168, pp.603-637, 1974.

A. Morbidelli, K. J. Walsh, D. P. O'brien, D. A. Minton, and W. F. Bottke, The Dynamical Evolution of the Asteroid Belt, pp.9780816532131-026, 2015.

A. Morbidelli and A. Crida, The dynamics of Jupiter and Saturn in the gaseous protoplanetary disk, Icarus, vol.191, pp.158-171, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00388141

I. Mosqueira and P. R. Estrada, Formation of the regular satellites of giant planets in an extended gaseous nebula I: subnebula model and accretion of satellites, Icarus, vol.163, pp.76-85, 2003.

I. Mosqueira and P. R. Estrada, Formation of the regular satellites of giant planets in an extended gaseous nebula II: satellite migration and survival, Icarus, vol.163, pp.232-255, 2003.

I. Mosqueira, P. R. Estrada, and S. Charnoz, Deciphering the origin of the regular satellites of gaseous giants-Iapetus: The Rosetta ice-moon, Icarus, vol.207, pp.448-460, 2010.

O. Mousis, T. Ronnet, B. Brugger, O. Ozgurel, F. Pauzat et al., Origin of Molecular Oxygen in Comet 67P/Churyumov-Gerasimenko, The Astrophysical Journal Letters, vol.823, p.41, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01440133

O. Mousis, A. Drouard, P. Vernazza, J. I. Lunine, M. Monnereau et al., Impact of Radiogenic Heating on the Formation Conditions of Comet 67P /Churyumov-Gerasimenko, The Astrophysical Journal Letters, vol.839, p.4, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01790530

O. Mousis, O. Ozgurel, J. I. Lunine, A. Luspay-kuti, T. Ronnet et al., Stability of Sulphur Dimers (S<SUB>2</SUB>) in Cometary Ices, The Astrophysical Journal, vol.835, p.134, 2017.

O. Mousis and D. Gautier, Constraints on the presence of volatiles in Ganymede and Callisto from an evolutionary turbulent model of the Jovian subnebula, Planetary and Space Science, vol.52, pp.361-370, 2004.

T. Nakamoto and Y. Nakagawa, Formation, Early Evolution, and Gravitational Stability of Protoplanetary Disks, The Astrophysical Journal, vol.421, p.640, 1994.

D. Nesvorný and A. Morbidelli, Statistical Study of the Early Solar System's Instability with Four, Five, and Six Giant Planets, The Astronomical Journal, vol.144, p.117, 2012.

D. Nesvorný and D. Vokrouhlický, Chaotic Capture of Neptune Trojans, The Astronomical Journal, vol.137, pp.5003-5011, 2009.

D. Nesvorný, D. Vokrouhlický, and A. Morbidelli, Capture of Irregular Satellites during Planetary Encounters, The Astronomical Journal, vol.133, pp.1962-1976, 2007.

D. Nesvorný, D. Vokrouhlický, and A. Morbidelli, Capture of Trojans by Jumping Jupiter, The Astrophysical Journal, vol.768, p.45, 2013.

M. Ogihara and S. Ida, N-body Simulations of Satellite Formation around Giant Planets: Origin of Orbital Configuration of the Galilean Moons, The Astrophysical Journal, vol.753, p.60, 2012.

M. Ogihara, M. J. Duncan, and S. Ida, Eccentricity Trap: Trapping of Resonantly Interacting Planets Near the Disk Inner Edge, The Astrophysical Journal, vol.721, pp.1184-1192, 2010.

S. Okuzumi, H. Tanaka, H. Kobayashi, and K. Wada, Rapid Coagulation of Porous Dust Aggregates outside the Snow Line: A Pathway to Successful Icy Planetesimal Formation, The Astrophysical Journal, vol.752, p.106, 2012.

H. C. St and . O&apos;neill, The origin of the moon and the early history of the earthA chemical model. Part 1: The moon, Geochimica et Cosmochimica Acta, vol.55, pp.90168-90173, 1991.

C. W. Ormel, An Atmospheric Structure Equation for Grain Growth, The Astrophysical Journal, vol.789, p.18, 2014.

C. W. Ormel and J. N. Cuzzi, Closed-form expressions for particle relative velocities induced by turbulence, Astronomy&Astrophysics, vol.466, pp.413-420, 2007.

C. W. Ormel and H. H. Klahr, The effect of gas drag on the growth of protoplanets. Analytical expressions for the accretion of small bodies in laminar disks, Astronomy&Astrophysics, vol.520, p.43, 2010.

C. W. Ormel, The Emerging Paradigm of Pebble Accretion, Astrophysics and Space Science Library, vol.445, p.197, 2017.

C. W. Ormel, B. Liu, and D. Schoonenberg, Formation of TRAPPIST-1 and other compact systems, Astronomy&Astrophysics, vol.604, p.1, 2017.

S. J. Paardekooper, C. Baruteau, A. Crida, and W. Kley, A torque formula for nonisothermal type I planetary migration-I. Unsaturated horseshoe drag, Monthly Notices of the Royal Astronomical Society, vol.401, pp.1950-1964, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00630866

M. Pajola, M. Lazzarin, C. M. Dalle-ore, D. P. Cruikshank, T. L. Roush et al., Phobos as a D-type Captured Asteroid, The Astrophysical Journal, vol.777, p.127, 2013.

H. B. Perets and R. A. Murray-clay, Wind-shearing in Gaseous Protoplanetary Disks and the Evolution of Binary Planetesimals, The Astrophysical Journal, vol.733, p.56, 2011.

L. M. Pérez, C. J. Chandler, A. Isella, J. M. Carpenter, S. M. Andrews et al., Grain Growth in the Circumstellar Disks of the Young Stars CY Tau and DoAr 25, The Astrophysical Journal, vol.813, p.41, 2015.

A. Pierens, S. N. Raymond, D. Nesvorny, and A. Morbidelli, Outward Migration of Jupiter and Saturn in 3:2 or 2:1 Resonance in Radiative Disks: Implications for the Grand Tack and Nice models, The Astrophysical Journal Letters, vol.795, p.11, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01071547

M. Carlé, L. A. Pieters, S. K. Taylor, L. P. Noble, B. Keller et al., Space weathering on airless bodies: Resolving a mystery with lunar samples, Meteoritics and Planetary Science, vol.35, pp.1101-1107, 2000.

M. Carle, S. Pieters, N. Murchie, D. Thomas, and . Britt, Composition of Surface Materials on the Moons of Mars, Planetary and Space Science, vol.102, pp.144-151, 2014.

M. Podolak, J. B. Pollack, and R. T. Reynolds, Interactions of planetesimals with protoplanetary atmospheres, Icarus, vol.73, issue.88, pp.90090-90095, 1988.

J. B. Pollack, O. Hubickyj, P. Bodenheimer, J. J. Lissauer, M. Podolak et al., Formation of the Giant Planets by Concurrent Accretion of Solids and Gas, Icarus, vol.124, pp.62-85, 1996.

J. B. Pollack, J. A. Burns, and M. E. Tauber, Gas drag in primordial circumplanetary envelopes: A mechanism for satellite capture, Icarus, vol.37, pp.90016-90018, 1979.

J. B. Pollack, C. P. Mckay, and B. M. Christofferson, A calculation of the Rosseland mean opacity of dust grains in primordial solar system nebulae, Icarus, vol.64, pp.90069-90076, 1985.

J. B. Pollack, D. Hollenbach, S. Beckwith, D. P. Simonelli, T. Roush et al., Composition and Radiative Properties of Grains in Molecular Clouds and Accretion Disks, The Astrophysical Journal, vol.421, p.615, 1994.

J. E. Pringle, Accretion discs in astrophysics, Annual Review of Astronomy and Astrophysics, vol.19, pp.137-162, 1981.

S. N. Raymond and A. Izidoro, Origin of water in the inner Solar System: Planetesimals scattered inward during Jupiter and Saturn's rapid gas accretion, Icarus, vol.297, pp.134-148, 2017.

S. N. Raymond and A. Izidoro, The empty primordial asteroid belt, Science Advances, vol.3, issue.9, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01587643

H. Rein and D. S. Spiegel, IAS15: a fast, adaptive, high-order integrator for gravitational dynamics, accurate to machine precision over a billion orbits, Monthly Notices of the Royal Astronomical Society, vol.446, pp.1424-1437, 2015.

H. Rein and D. Tamayo, WHFAST: a fast and unbiased implementation of a symplectic Wisdom-Holman integrator for long-term gravitational simulations

, Monthly Notices of the Royal Astronomical Society, vol.452, pp.376-388, 2015.

C. Reylé and D. C. Boice, An S<SUB>2</SUB> Fluorescence Model for Interpreting High-Resolution Cometary Spectra. I. Model Description and Initial Results, The Astrophysical Journal, vol.587, pp.464-471, 2003.

F. Rietmeijer, A cometary aggregate interplanetary dust particle as an analog for comet Wild 2 grain chemistry preserved in silica-rich Stardust glass, Meteoritics and Planetary Science, vol.44, pp.1589-1609, 2009.

J. M. Frans, J. M. Rietmeijer, and . Karner, Metastable eutectic gas to solid condensation in the Al<SUB>2</SUB>O<SUB>3</SUB>SiO<SUB>2</SUB> system, Journal of Chemical Physics, vol.110, pp.4554-4558, 1999.

J. M. Frans, . Rietmeijer, J. A. Nuth, and J. M. Karner, Metastable Eutectic Condensation in a Mg-Fe-SiO-H<SUB>2</SUB>-O<SUB>2</SUB> Vapor: Analogs to Circumstellar Dust, The Astrophysical Journal, vol.527, pp.395-404, 1999.

J. M. Frans, . Rietmeijer, J. A. Nuth, and J. M. Karner, Metastable eutectic, gas to solid, condensation in the FeO Fe2O3 SiO2 system, Physical Chemistry Chemical Physics (Incorporating Faraday Transactions), vol.1, pp.1511-1516, 1999.

C. M. Robert, A. Crida, E. Lega, H. Méheut, and A. Morbidelli, Toward a new paradigm for Type II migration, 2018.

K. Ros and A. Johansen, Ice condensation as a planet formation mechanism, Astronomy&Astrophysics, vol.552, p.137, 2013.

P. Rosenblatt, The origin of the Martian moons revisited, Astronomy and Astrophysics Review, vol.19, p.44, 2011.

P. Rosenblatt and S. Charnoz, On the formation of the martian moons from a circum-martian accretion disk, Icarus, vol.221, pp.806-815, 2012.

P. Rosenblatt, S. Charnoz, K. M. Dunseath, M. Teraodunseath, A. Trinh et al., Accretion of Phobos and Deimos in an extended debris disc stirred by transient moons, Nature Geoscience, vol.9, pp.581-583, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01350105

M. Rubin, K. Altwegg, E. F. Van-dishoeck, and G. Schwehm, Molecular Oxygen in Oort Cloud Comet 1P/Halley, The Astrophysical Journal, vol.815, p.11, 2015.

E. Saito and S. Sirono, Planetesimal Formation by Sublimation, The Astrophysical Journal, vol.728, p.20, 2011.

J. Salmon and R. M. Canup, Accretion of Saturns Inner Mid-sized Moons from a Massive Primordial Ice Ring, The Astrophysical Journal, vol.836, p.109, 2017.

J. Salmon and R. M. Canup, Lunar Accretion from a Roche-interior Fluid Disk, The Astrophysical Journal, vol.760, p.83, 2012.

C. Sanloup, A. Jambon, and P. Gillet, A simple chondritic model of Mars, Physics of the Earth and Planetary Interiors, vol.112, issue.98, pp.175-182, 1999.

T. Sasaki, G. R. Stewart, and S. Ida, Origin of the Different Architectures of the Jovian and Saturnian Satellite Systems, The Astrophysical Journal, vol.714, pp.1052-1064, 2010.

D. Schoonenberg and C. W. Ormel, Planetesimal formation near the snowline: in or out?, Astronomy&Astrophysics, vol.602, p.21, 2017.

G. Schubert, J. D. Anderson, T. Spohn, and W. B. Mckinnon, Interior composition, structure and dynamics of the Galilean satellites, pp.281-306, 2004.

P. H. Schultz and A. B. Lutz-garihan, Grazing Impacts on Mars: a Record of Lost Satellites. Lunar and Planetary Science Conference Proceedings, vol.87, pp.84-96, 1982.

J. E. Scully, C. T. Russell, A. Yin, R. Jaumann, E. Carey et al., Geomorphological evidence for transient water flow on Vesta, Earth and Planetary Science Letters, vol.411, pp.151-163, 2015.

N. I. Shakura and R. A. Sunyaev, Black holes in binary systems, Observational appearance. Astronomy&Astrophysics, vol.24, pp.337-355, 1973.

S. Shibaike, T. Okuzumi, S. Sasaki, and . Ida, Satellitesimal Formation via Collisional Dust Growth in Steady Circumplanetary Disks, The Astrophysical Journal, vol.846, p.81, 2017.

M. Shiraishi and S. Ida, Infall of Planetesimals onto Growing Giant Planets: Onset of Runaway Gas Accretion and Metallicity of Their Gas Envelopes, The Astrophysical Journal, vol.684, pp.1416-1426, 2008.

H. Sierks, C. Barbieri, P. L. Lamy, R. Rodrigo, D. Koschny et al., , vol.347, p.1044, 2015.

V. Solomatov, Magma oceans and primordial mantle differentiation, Treatise on Geophysics, pp.81-104, 2015.

J. R. Spencer and W. M. Calvin, Condensed O<SUB>2</SUB> on Europa and Callisto, The Astronomical Journal, vol.124, pp.3400-3403, 2002.

J. David, J. I. Stevenson, and . Lunine, Rapid formation of Jupiter by diffusive redistribution of water vapor in the solar nebula, Icarus, vol.75, pp.90133-90142, 1988.

R. Suetsugu and K. Ohtsuki, Distribution of Captured Planetesimals in Circumplanetary Gas Disks and Implications for Accretion of Regular Satellites, The Astrophysical Journal, vol.839, p.66, 2017.

R. Suetsugu, K. Ohtsuki, and T. Fujita, Orbital Characteristics of Planetesimals Captured by Circumplanetary Gas Disks, The astronomical Journal, vol.151, p.140, 2016.

N. Sugiura and W. Fujiya, Correlated accretion ages and ?<SUP>54</SUP>Cr of meteorite parent bodies and the evolution of the solar nebula, Meteoritics and Planetary Science, vol.49, pp.772-787, 2014.

J. M. Sunshine, T. L. Farnham, L. M. Feaga, O. Groussin, F. Merlin et al., Temporal and Spatial Variability of Lunar Hydration As Observed by the Deep Impact Spacecraft, Science, vol.326, p.565, 2009.

K. D. Supulver and D. N. Lin, Formation of Icy Planetesimals in a Turbulent Solar Nebula, Icarus, vol.146, pp.525-540, 2000.

K. Takeru, M. Suzuki, A. Ogihara, A. Morbidelli, T. Crida et al., Evolution of protoplanetary discs with magnetically driven disc winds, Astronomy&Astrophysics, vol.596, p.74, 2016.

M. K. Anthony and . Szeto, Orbital evolution and origin of the Martian satellites, Icarus, vol.55, issue.83, pp.90056-90064, 1983.

J. Szulágyi, A. Morbidelli, A. Crida, and F. Masset, Accretion of Jupiter-mass Planets in the Limit of Vanishing Viscosity, The Astrophysical Journal, vol.782, p.65, 2014.

J. Szulágyi, F. Masset, E. Lega, A. Crida, A. Morbidelli et al., Circumplanetary disc or circumplanetary envelope?, Monthly Notices of the Royal Astronomical Society, vol.460, pp.2853-2861, 2016.

T. Takata and D. J. Stevenson, Despin Mechanism for Protogiant Planets and Ionization State of Protogiant Planetary Disks, Icarus, vol.123, pp.404-421, 1996.

T. Takeuchi and D. N. Lin, Radial Flow of Dust Particles in Accretion Disks, The Astrophysical Journal, vol.581, pp.1344-1355, 2002.

H. Tanaka, T. Takeuchi, and W. R. Ward, Three-Dimensional Interaction between a Planet and an Isothermal Gaseous Disk. I. Corotation and Lindblad Torques and Planet Migration, The Astrophysical Journal, vol.565, pp.1257-1274, 2002.

T. Tanigawa, K. Ohtsuki, and M. N. Machida, Distribution of Accreting Gas and Angular Momentum onto Circumplanetary Disks, The Astrophysical Journal, vol.747, p.47, 2012.

V. Taquet, K. Furuya, C. Walsh, and E. F. Van-dishoeck, A primordial origin for molecular oxygen in comets: a chemical kinetics study of the formation and survival of O<SUB>2</SUB> ice from clouds to discs, Monthly Notices of the Royal Astronomical Society, vol.462, pp.99-115, 2016.

A. Teachey, D. M. Kipping, A. R. Schmitt, . Hek, and . Vi, On the Dearth of Galilean Analogs in Kepler, and the Exomoon Candidate Kepler-1625b I, The Astronomical Journal, vol.155, p.36, 2018.

L. Testi, T. Birnstiel, L. Ricci, S. Andrews, J. Blum et al., Dust Evolution in Protoplanetary Disks. Protostars and Planets VI, pp.339-361, 2014.

C. Thompson and D. J. Stevenson, Gravitational Instability in TwoPhase Disks and the Origin of the Moon, The Astrophysical Journal, vol.333, p.452, 1988.

A. Toppani, G. Libourel, F. Robert, and J. Ghanbaja, Laboratory condensation of refractory dust in protosolar and circumstellar conditions, Geochimica et Cosmochimica Acta, vol.70, pp.5035-5060, 2006.

K. Tsiganis, R. Gomes, A. Morbidelli, and H. F. Levison, Origin of the orbital architecture of the giant planets of the Solar System, Nature, vol.435, pp.459-461, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00390820

N. J. Turner, S. Fromang, C. Gammie, H. Klahr, G. Lesur et al., Transport and Accretion in Planet-Forming Disks, Protostars and Planets VI, p.411, 2014.

P. Vernazza, R. Brunetto, R. P. Binzel, C. Perron, D. Fulvio et al., Plausible parent bodies for enstatite chondrites and mesosiderites: Implications for Lutetia's fly-by, Icarus, vol.202, pp.477-486, 2009.

P. Vernazza, M. Marsset, P. Beck, R. P. Binzel, M. Birlan et al., Interplanetary Dust Particles as Samples of Icy Asteroids, The Astrophysical Journal, vol.806, p.204, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01439933

P. Vernazza, J. Castillo-rogez, P. Beck, J. Emery, R. Brunetto et al., Different Origins or Different Evolutions? Decoding the Spectral Diversity Among C-type Asteroids, The Astronomical Journal, vol.153, p.72, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01790534

J. Veverka, The surfaces of Phobos and Deimos, Vistas in Astronomy, vol.22, pp.163-192, 1978.

C. Visscher and B. Fegley, Chemistry of Impact-generated Silicate Melt-vapor Debris Disks, The Astrophysical Journal, vol.767, p.12, 2013.

D. Vokrouhlický, W. F. Bottke, and D. Nesvorný, Capture of TransNeptunian Planetesimals in the Main Asteroid Belt, The Astronomical Journal, vol.152, p.39, 2016.

K. J. Walsh, A. Morbidelli, S. N. Raymond, D. P. O&apos;brien, and A. M. Mandell, A low mass for Mars from Jupiter's early gas-driven migration, Nature, vol.475, pp.206-209, 2011.

H. Wang, B. P. Weiss, X. Bai, B. G. Downey, J. Wang et al., Lifetime of the solar nebula constrained by meteorite paleomagnetism, Science, vol.355, pp.623-627, 2017.

W. R. Ward, Survival of Planetary Systems, The Astrophysical Journal Letters, vol.482, pp.211-214, 1997.

W. R. Ward, On the evolution of the protolunar disc, Philosophical Transactions of the Royal Society of London Series A, vol.372, 2014.

W. R. Ward, On the Vertical Structure of the Protolunar Disk, The Astrophysical Journal, vol.744, p.140, 2012.

S. J. Weidenschilling, Aerodynamics of solid bodies in the solar nebula, Monthly Notices of the Royal Astronomical Society, vol.180, pp.57-70, 1977.

K. Willner, X. Shi, and J. Oberst, Phobos' shape and topography models, Planetary and Space Science, vol.102, pp.51-59, 2014.

S. Yamamoto, R. Nakamura, T. Matsunaga, Y. Ogawa, Y. Ishihara et al., Olivine-rich exposures in the South Pole-Aitken Basin, Icarus, vol.218, pp.331-344, 2012.

C. C. Yang, A. Johansen, and D. Carrera, Concentrating small particles in protoplanetary disks through the streaming instability, Astronomy&Astrophysics, vol.606, p.80, 2017.

A. G. Yeghikyan, Irradiation of dust in molecular clouds. II. Doses produced by cosmic rays, Astrophysics, vol.54, pp.87-99, 2011.

A. N. Youdin and Y. Lithwick, Particle stirring in turbulent gas disks: Including orbital oscillations, Icarus, vol.192, pp.588-604, 2007.

N. Andrew, J. Youdin, and . Goodman, Streaming Instabilities in Protoplanetary Disks, The Astrophysical Journal, vol.620, p.24, 2005.

H. Balsiger, K. Altwegg, and A. Bar-nun, SciA, vol.1, p.1500377, 2015.

H. Balsiger, K. Altwegg, and P. Bochsler, SSRv, vol.128, p.745, 2007.

A. Bieler, K. Altwegg, and H. Balsiger, , vol.526, p.678, 2015.

D. Bockelée-morvan, J. Crovisier, M. J. Mumma, and H. A. Weaver, Comets II, p.391, 2004.

S. Casassa, M. Calatayud, K. Doll, C. Minot, and C. Pisani, CPL, vol.409, p.110, 2005.

F. J. Ciesla, ApJL, vol.784, p.1, 2014.

J. F. Cooper, E. R. Christian, and R. E. Johnson, AdSpR, vol.21, p.1611, 1998.

J. F. Cooper, E. R. Christian, J. D. Richardson, and C. Wang, EM&P, vol.92, p.261, 2003.

F. Effenberger, H. Fichtner, K. Scherer, and I. Büsching, A&A, vol.547, p.120, 2012.

Y. Ellinger, F. Pauzat, and O. Mousis, ApJL, vol.801, p.30, 2015.

B. D. Fields and J. Ellis, , vol.4, p.419, 1999.

N. Fray and B. Schmitt, P&SS, vol.57, p.2053, 2009.

F. Hersant, D. Gautier, and J. Huré, ApJ, vol.554, p.391, 2001.

R. E. Johnson, PCS, p.19, 1990.

R. E. Johnson, JGR, vol.96, p.17, 1991.

A. Kouchi, T. Yamamoto, T. Kozasa, T. Kuroda, and J. M. Greenberg, A&A, vol.290, p.1009, 1994.

G. Kresse and J. Hafner, PhRvB, vol.48, p.13115, 1993.

G. Kresse and J. Hafner, PhRvB, vol.49, p.14251, 1994.

M. Lattelais, M. Bertin, and H. Mokrane, A&A, vol.532, p.12, 2011.

M. Lattelais, F. Pauzat, Y. Ellinger, and C. Ceccarelli, A&A, vol.578, p.62, 2015.

S. Lectez, J. Simon, and O. Mousis, ApJL, vol.805, p.1, 2015.

L. Roy, L. Altwegg, K. Balsiger, and H. , A&A, vol.583, p.1, 2015.

K. Lodders, H. Palme, H. Gail, and S. A. Fuselier, Landolt Börnstein, SciA, vol.2, p.1501781, 2009.

M. M. Maldoni, M. P. Egan, R. G. Smith, G. Robinson, and C. M. Wright, MNRAS, vol.345, p.912, 2003.

A. H. Mohammadi, R. Anderson, and B. Tohidi, Am. In. Chem. Eng, vol.51, p.2825, 2005.

A. H. Mohammadi, B. Tohidi, and R. W. Burgass, J. Chem. Eng. Data, vol.48, p.612, 2003.

O. Mousis, J. I. Lunine, and A. Luspay-kuti, ApJL, vol.819, p.33, 2016.

O. Mousis, J. I. Lunine, S. Picaud, and D. Cordier, FaDi, vol.147, p.509, 2010.

M. J. Mumma and S. B. Charnley, ARA&A, vol.49, p.471, 2011.

W. R. Parrish, J. M. Prausnitz, W. R. Parrish, and J. M. Prausnitz, Ind. Eng. Chem. Process Design Dev, vol.11, p.462, 1972.

M. Rubin, K. Altwegg, and H. Balsiger, Sci, vol.348, p.232, 2015.

M. Rubin, K. Altwegg, E. F. Van-dishoeck, and G. Schwehm, ApJL, vol.815, p.11, 2015.

C. Walsh, H. Nomura, and E. Van-dishoeck, A&A, vol.582, p.88, 2015.

S. J. Weidenschilling and J. N. Cuzzi, Protostars and Planets III, p.1031, 1993.

M. Werner, R. Kissmann, A. W. Strong, and O. Reimer, APh, vol.64, p.18, 2015.

A. G. Yeghikyan, T. P. Andert, P. Rosenblatt, and M. Pätzold, GeoRL, vol.54, p.9202, 2010.

T. H. Burbine and K. M. Brien, M&PS, vol.39, p.667, 2004.

J. A. Burns, VA, vol.22, p.193, 1978.

R. M. Canup and J. Salmon, BAAS, vol.46, 2014.

R. M. Canup, C. Visscher, J. Salmon, B. Fegley, and . Jr, NatGe, vol.8, p.918, 2015.

B. Carry, P&SS, vol.73, p.98, 2012.

K. V. Cashman, CoMP, vol.113, p.126, 1993.

K. V. Cashman and B. D. Marsh, CoMP, vol.99, p.292, 1988.

A. Cazenave, A. Dobrovolskis, and B. Lago, Icar, vol.44, p.730, 1980.

R. I. Citron, H. Genda, and S. Ida, Icar, vol.252, p.334, 2015.

R. A. Craddock, Icar, vol.211, p.1150, 2011.

A. De-sio, L. Tozzetti, and Z. Wu, A&A, vol.589, p.4, 2016.

F. E. Demeo and B. Carry, Icar, vol.226, p.723, 2013.

C. Fitoussi, B. Bourdon, and X. Wang, E&PSL, vol.434, p.151, 2016.

M. C. Flemings, R. G. Riek, and K. P. Young, Materials Science and Engeneering, vol.25, p.103, 1976.

A. A. Fraeman, R. E. Arvidson, and S. L. Murchie, JGR, vol.117, pp.0-15, 2012.

A. A. Fraeman, S. L. Murchie, and R. E. Arvidson, Icar, vol.229, p.196, 2014.

H. Gail, A&A, vol.332, p.1099, 1998.

H. Gail, R. Keller, and E. Sedlmayr, A&A, vol.133, p.320, 1984.

H. Gail and E. Sedlmayr, A&A, vol.206, p.153, 1988.

M. Giuranna, T. L. Roush, and T. Duxbury, MNRAS, vol.59, p.257, 1308.

R. Gonzalez-guzman, OJGeo, vol.6, p.30, 2016.

T. L. Grove, AmMin, vol.75, p.544, 1990.

W. K. Hartmann and D. R. Davis, Icar, vol.24, p.504, 1975.

R. Hutchison, Meteorites, p.520, 2004.

K. Ichikawa, Y. Kinoshita, and S. Shimamura, Transactions of the Japan Institute of Metals, vol.26, p.513, 1985.

E. Kokubo, S. Ida, and J. Makino, Icar, vol.148, p.419, 2000.

D. J. Lawrence, W. C. Feldman, and J. O. Goldsten, Sci, vol.339, p.292, 2013.

H. F. Levison, W. F. Bottke, and M. Gounelle, , vol.460, p.364, 2009.

K. Lodders, B. Fegley, and . Jr, Chemistry of the Solar System, 2011.

A. Morbidelli, H. F. Levison, K. Tsiganis, and R. Gomes, , vol.435, p.462, 2005.

H. S. O&apos;neill, GeCoA, vol.55, p.1135, 1991.

M. Pajola, M. Lazzarin, and C. M. Dalle-ore, ApJ, vol.777, p.127, 2013.

C. M. Pieters, S. Murchie, N. Thomas, and D. Britt, P&SS, vol.102, p.144, 2014.

C. M. Pieters, L. A. Taylor, and S. K. Noble, M&PS, vol.35, p.1101, 2000.

J. B. Pollack, J. A. Burns, and M. E. Tauber, Icar, vol.37, p.587, 1979.

F. Rietmeijer, M&PS, vol.44, p.1589, 2009.

F. J. Rietmeijer and J. M. Karner, JChPh, vol.110, p.4554, 1999.

F. J. Rietmeijer, J. A. Nuth, . Iii, and J. M. Karner, ApJ, vol.527, p.395, 1999.

F. J. Rietmeijer, J. A. Nuth, . Iii, and J. M. Karner, PCCP, vol.1, p.1511, 1999.

P. Rosenblatt, A&ARv, vol.19, p.44, 2011.

P. Rosenblatt and S. Charnoz, Icar, vol.221, p.806, 2012.

J. Salmon and R. M. Canup, ApJ, vol.760, p.83, 2012.

C. Sanloup, A. Jambon, and P. Gillet, PEPI, vol.112, p.43, 1999.

P. H. Schultz and A. B. Lutz-garihan, LPSC, vol.13, p.84, 1982.

J. E. Scully, C. T. Russell, and A. Yin, E&PSL, vol.411, p.151, 2015.

H. Sierks, C. Barbieri, and P. L. Lamy, Sci, vol.347, p.1044, 2015.

V. S. Solomatov, Treatise on Geophysics, vol.9, 2007.

J. M. Sunshine, T. L. Farnham, and L. M. Feaga, Sci, vol.326, p.565, 2009.

A. M. Szeto, Icar, vol.55, p.133, 1983.

C. Thompson and D. J. Stevenson, ApJ, vol.333, p.452, 1988.

A. Toppani, G. Libourel, F. Robert, and J. Ghanbaja, GeCoA, vol.70, p.5035, 2006.

P. Vernazza, R. Brunetto, and R. P. Binzel, Icar, vol.202, p.477, 2009.

P. Vernazza, M. Marsset, and P. Beck, ApJ, vol.806, p.204, 2015.

C. Visscher, B. Fegley, and J. , ApJL, vol.767, p.12, 2013.

W. R. Ward, ApJ, vol.744, p.140, 2012.

W. R. Ward, RSPTA, vol.372, 2014.

K. Willner, X. Shi, and J. Oberst, P&SS, vol.102, p.51, 2014.

S. Yamamoto, R. Nakamura, and T. Matsunaga, Icar, vol.218, p.331, 2012.

M. F. References-a&apos;hearn, Astrochemistry of Cosmic Phenomena, vol.150, p.415, 1992.

A. &apos;hearn, M. F. Arpigny, C. Feldman, and P. D. , BAAS, vol.32, p.1, 2000.

M. F. Ahearn and P. D. Feldman, ASIC, vol.156, p.463, 1985.

M. F. Ahearn, D. G. Schleicher, and P. D. Feldman, ApJL, vol.274, p.99, 1983.

A. Bieler, K. Altwegg, and H. Balsiger, , vol.526, p.678, 2015.

D. Bockelée-morvan, J. Crovisier, M. J. Mumma, and H. A. Weaver, Comets II, p.391, 2004.

D. C. Boice and C. Reylé, HiA, vol.13, p.501, 2005.

V. Buch, B. Sigurd, J. P. Devlin, U. Buck, and J. K. Kazimirski, IRPC, vol.23, p.375, 2004.

U. Calmonte, K. Altwegg, and H. Balsiger, MNRAS, vol.462, p.253, 2016.

R. W. Carlson, W. M. Calvin, and J. B. Dalton, , p.283, 2009.

R. W. Carlson, R. E. Johnson, and M. S. Anderson, Sci, vol.286, p.97, 1999.

T. Cassidy, P. Coll, and F. Raulin, SSRv, vol.153, p.299, 2010.

F. J. Ciesla, ApJ, vol.723, p.514, 2010.

F. J. Ciesla, ApJ, vol.740, p.9, 2011.

F. J. Ciesla and S. A. Sandford, Sci, vol.336, p.452, 2012.

L. I. Cleeves, F. C. Adams, and E. A. Bergin, ApJ, vol.772, p.5, 2013.

L. I. Cleeves, E. A. Bergin, and C. M. Alexander, Sci, vol.345, p.1590, 2014.

B. Dubrulle, G. Morfill, and M. Sterzik, Icar, vol.114, p.237, 1995.

Y. Ellinger, F. Pauzat, and O. Mousis, ApJL, vol.801, p.30, 2015.

P. D. Feldman, Astrochemistry (Dordrecht: D. Reidel, vol.120, p.417, 1987.

R. J. Grim and J. M. Greenberg, ApJ, vol.321, p.91, 1987.

S. Grimme, J. Antony, S. Ehrlich, and H. Krieg, JChPh, vol.132, p.154104, 2010.

W. M. Irvine, F. P. Schloerb, J. Crovisier, B. Fegley, . Jr et al., Protostars and Planets IV, p.1159, 2000.

A. Jiménez-escobar and G. M. Muñoz-caro, A&A, vol.536, p.91, 2011.

A. Jiménez-escobar, G. M. Muñoz-caro, and A. Ciaravella, ApJL, vol.751, p.40, 2012.

S. J. Kim, M. F. A&apos;hearn, D. D. Wellnitz, R. Meier, and Y. S. Lee, Icar, vol.166, p.157, 2003.

G. Kresse and J. Furthmüller, PhRvB, vol.54, p.11169, 1996.

G. Kresse and J. Hafner, PhRvB, vol.48, p.13115, 1993.

G. Kresse and J. Hafner, PhRvB, vol.49, p.14251, 1994.

G. Kresse and D. Joubert, PhRvB, vol.59, p.1758, 1999.

K. Swamy, K. S. Wallis, and M. K. , MNRAS, vol.228, p.305, 1987.

C. Laffont, D. C. Boice, and G. Moreels, GeoRL, vol.25, p.2749, 1998.

M. Lattelais, M. Bertin, and H. Mokrane, A&A, vol.532, p.12, 2011.

M. Lattelais, F. Pauzat, Y. Ellinger, and C. Ceccarelli, A&A, vol.578, p.62, 2015.

L. Roy, L. Altwegg, K. Balsiger, and H. , A&A, vol.583, p.1, 2015.

A. Luspay-kuti, O. Mousis, and M. Hässig, SciA, vol.2, p.1501781, 2016.

B. Meyer, T. Stroyer-hansen, and T. V. Oommen, JMoSp, vol.42, p.335, 1972.

O. Mousis, J. I. Lunine, and A. Luspay-kuti, ApJL, vol.819, p.33, 2016.

O. Mousis, T. Ronnet, and B. Brugger, ApJL, vol.823, p.41, 2016.

J. P. Perdew, K. Burke, and M. Ernzerhof, PhRvL, vol.77, p.3865, 1996.

C. Reylé and D. C. Boice, ApJ, vol.587, p.464, 2003.

S. D. Rodgers and S. B. Charnley, AdSpR, vol.38, 1928.

M. Rubin, K. Altwegg, and H. Balsiger, Sci, vol.348, p.232, 2015.

M. Rubin, K. Altwegg, E. F. Van-dishoeck, and G. Schwehm, ApJL, vol.815, p.11, 2015.

P. P. Saxena and A. Misra, MNRAS, vol.272, p.89, 1995.

P. P. Saxena, M. Singh, and S. Bhatnagar, BASI, vol.31, p.75, 2003.

A. N. Youdin and Y. Lithwick, Icar, vol.192, p.588, 2007.

Y. References-alibert, O. Mousis, and W. Benz, A&A, vol.439, p.1205, 2005.

J. D. Anderson, G. Schubert, and R. A. Jacobson, Sci, vol.281, 1998.

X. Bai and J. M. Stone, ApJ, vol.769, p.76, 2013.

K. Baillié, S. Charnoz, and E. Pantin, A&A, vol.577, p.65, 2015.

K. Baillié, S. Charnoz, and E. Pantin, A&A, vol.590, p.60, 2016.

T. Birnstiel, H. Klahr, and B. Ercolano, A&A, vol.539, p.148, 2012.

T. Birnstiel, C. W. Ormel, and C. P. Dullemond, A&A, vol.525, p.11, 2011.

B. Bitsch and A. Johansen, A&A, vol.590, p.101, 2016.

B. Bitsch, M. Lambrechts, and A. Johansen, A&A, vol.582, p.112, 2015.

B. Bitsch, A. Morbidelli, E. Lega, K. Kretke, and A. Crida, A&A, vol.570, p.75, 2014.

P. N. Brown, G. D. Byrne, and A. C. Hindmarsh, SIAM J. Sci. Stat. Comput, vol.10, p.1038, 1989.

R. M. Canup and W. R. Ward, AJ, vol.124, p.3404, 2002.

R. M. Canup and W. R. Ward, , vol.441, p.834, 2006.

R. M. Canup and W. R. Ward, , p.59, 2009.

S. Charnoz, L. Fouchet, J. Aleon, and M. Moreira, ApJ, vol.737, p.33, 2011.

S. Charnoz and A. Morbidelli, Icar, vol.166, p.141, 2003.

F. J. Ciesla, Icar, p.655, 0200.

F. J. Ciesla, ApJ, vol.723, p.514, 2010.

F. J. Ciesla, ApJ, vol.740, p.9, 2011.

F. J. Ciesla and J. N. Cuzzi, Icar, vol.181, p.178, 2006.

D. Angelo, G. Podolak, and M. , ApJ, vol.806, p.203, 2015.

J. Dra?-?kowska, Y. Alibert, and B. Moore, A&A, vol.594, p.105, 2016.

C. A. Dwyer, F. Nimmo, M. Ogihara, and S. Ida, Icar, vol.225, p.390, 2013.

P. R. Estrada and I. Mosqueira, Icar, vol.181, p.486, 2006.

P. R. Estrada, I. Mosqueira, J. J. Lissauer, G. Angelo, and D. P. Cruikshank, , p.27, 2009.

N. Fray and B. Schmitt, P&SS, vol.57, p.2053, 2009.

S. Fromang, W. Lyra, and F. Masset, A&A, vol.534, p.107, 2011.

T. Fujita, K. Ohtsuki, T. Tanigawa, and R. Suetsugu, AJ, vol.146, p.140, 2013.

Y. Greenzweig and J. J. Lissauer, Icar, vol.87, p.40, 1990.

O. Gressel, R. P. Nelson, N. J. Turner, and U. Ziegler, ApJ, vol.779, p.59, 2013.

O. Gressel, N. J. Turner, R. P. Nelson, and C. P. Mcnally, ApJ, vol.801, p.84, 2015.

T. Guillot, S. Ida, and C. W. Ormel, A&A, vol.572, p.72, 2014.

R. Hueso and T. Guillot, A&A, vol.442, p.703, 2005.

A. Johansen, J. Blum, and H. Tanaka, Protostars and Planets VI, p.547, 2014.

A. Johansen, J. S. Oishi, and M. Mac-low, , vol.448, p.1022, 2007.

C. Keller and H. Gail, A&A, vol.415, p.1177, 2004.

H. Klahr and W. Kley, A&A, vol.445, p.747, 2006.

H. Kobayashi, C. W. Ormel, and S. Ida, ApJ, vol.756, p.70, 2012.

M. Lambrechts and A. Johansen, A&A, vol.544, p.32, 2012.

M. Lambrechts and A. Johansen, A&A, vol.572, p.107, 2014.

M. Lambrechts, A. Johansen, and A. Morbidelli, A&A, vol.572, p.35, 2014.

H. F. Levison, K. A. Kretke, and M. J. Duncan, , vol.524, p.322, 2015.

J. I. Lunine and D. J. Stevenson, Icar, vol.52, p.14, 1982.

D. Lynden-bell and J. E. Pringle, MNRAS, vol.168, p.603, 1974.

F. S. Masset, A. Morbidelli, A. Crida, and J. Ferreira, ApJ, vol.642, p.478, 2006.

W. B. Mckinnon, Icar, vol.130, p.540, 1997.

W. B. Mckinnon, Io After Galileo: A New View of Jupiter's Volcanic Moon, p.61, 2007.

Y. Miguel and S. Ida, Icar, vol.266, p.1, 2016.

A. Morbidelli, M. Lambrechts, S. Jacobson, and B. Bitsch, Icar, vol.258, p.418, 2015.

I. Mosqueira and P. R. Estrada, Icar, vol.163, 0198.

I. Mosqueira and P. R. Estrada, Icar, vol.163, p.232, 2003.

I. Mosqueira, P. R. Estrada, and S. Charnoz, Icar, vol.207, p.448, 2010.

O. Mousis and D. Gautier, P&SS, vol.52, p.361, 2004.

M. Ogihara and S. Ida, ApJ, vol.753, p.60, 2012.

S. Paardekooper, A&A, vol.462, p.355, 2007.

S. Paardekooper, C. Baruteau, A. Crida, and W. Kley, MNRAS, vol.401, p.1950, 2010.

H. B. Perets and R. A. Murray-clay, ApJ, vol.733, p.56, 2011.

K. Ros and A. Johansen, A&A, vol.552, p.137, 2013.

E. Saito and S. Sirono, ApJ, vol.728, p.20, 2011.

T. Sasaki, G. R. Stewart, and S. Ida, ApJ, vol.714, p.1052, 2010.

G. Schubert, J. D. Anderson, T. Spohn, and W. B. Mckinnon, , p.281, 2004.

N. I. Shakura and R. A. Sunyaev, A&A, vol.24, p.337, 1973.

J. B. Simon, X. Bai, J. M. Stone, P. J. Armitage, and K. Beckwith, ApJ, vol.764, p.66, 2013.

F. Sohl, T. Spohn, D. Breuer, and K. Nagel, Icar, vol.157, p.104, 2002.

K. D. Supulver and D. N. Lin, Icar, vol.146, p.525, 2000.

J. Szulágyi, F. Masset, and E. Lega, MNRAS, vol.460, p.2853, 2016.

J. Szulágyi, A. Morbidelli, A. Crida, and F. Masset, ApJ, vol.782, p.65, 2014.

T. Takeuchi and D. N. Lin, ApJ, vol.581, p.1344, 2002.

H. Tanaka and S. Ida, Icar, vol.139, p.350, 1999.

H. Tanaka, T. Takeuchi, and W. R. Ward, ApJ, vol.565, p.1257, 2002.

T. Tanigawa, A. Maruta, and M. N. Machida, ApJ, vol.784, p.109, 2014.

T. Tanigawa, K. Ohtsuki, and M. N. Machida, ApJ, vol.747, p.47, 2012.

S. J. Weidenschilling, MNRAS, vol.180, p.57, 1977.

A. N. Youdin and Y. Lithwick, Icar, vol.192, p.588, 2007.

, Saturn's Formation and Early Evolution at the Origin of Jupiter's Massive Moons T. Ronnet 1 , O. Mousis 1 , P. Vernazza 1 , J. I. Lunine 2 , and A, vol.3, p.4

C. Aix-marseille-univ and . Lam,-laboratoire-d&apos;astrophysique-de-marseille, Marseille, France; thomas.ronnet@lam.fr 2 Department of Astronomy and Carl Sagan Institute

, Boulevard de l'Observatoire, CS, vol.34229, 2017.

R. Barr, A. C. Canup, and R. M. , Icar, vol.198, p.163, 2008.

W. Béthune, G. Lesur, and J. Ferreira, A&A, vol.589, p.87, 2016.

T. Birnstiel, H. Klahr, and B. Ercolano, A&A, vol.539, p.148, 2012.

T. Birnstiel, C. W. Ormel, and C. P. Dullemond, A&A, vol.525, p.11, 2011.

B. Bitsch, A. Johansen, M. Lambrechts, and A. Morbidelli, A&A, vol.575, p.28, 2015.

B. Bitsch, M. Lambrechts, and A. Johansen, A&A, vol.582, p.112, 2015.

R. M. Canup and W. R. Ward, AJ, vol.124, p.3404, 2002.

R. M. Canup and W. R. Ward, , vol.441, p.834, 2006.

R. M. Canup and W. R. Ward, , p.59, 2009.

D. Carrera, U. Gorti, A. Johansen, and M. B. Davies, ApJ, vol.839, p.16, 2017.

S. Charnoz, J. Salmon, and A. Crida, , vol.465, p.752, 2010.

A. Coradini, C. Federico, O. Forni, and G. Magni, SGeo, vol.16, p.533, 1995.

P. Cresswell and R. P. Nelson, A&A, vol.482, p.677, 2008.

A. Crida and B. Bitsch, Icar, vol.285, p.145, 2017.

A. Crida and S. Charnoz, Sci, vol.338, p.1196, 2012.

D. Angelo, G. Podolak, and M. , ApJ, vol.806, p.203, 2015.

R. Deienno, A. Morbidelli, R. S. Gomes, and D. Nesvorný, AJ, vol.153, p.153, 2017.

R. Deienno, D. Nesvorný, D. Vokrouhlický, and T. Yokoyama, AJ, vol.148, p.25, 2014.

G. Dipierro and G. Laibe, MNRAS, vol.469, p.1932, 2017.

G. Dipierro, G. Laibe, D. J. Price, G. Lodato, J. Dra?-?kowska et al., MNRAS, vol.459, p.105, 2016.

P. R. Estrada and I. Mosqueira, Icar, vol.181, p.486, 2006.

P. R. Estrada, I. Mosqueira, J. J. Lissauer, G. Angelo, and D. P. Cruikshank, , p.27, 2009.

Y. I. Fujii, H. Kobayashi, S. Z. Takahashi, and O. Gressel, AJ, vol.153, p.194, 2017.

T. Fujita, K. Ohtsuki, T. Tanigawa, and R. Suetsugu, AJ, vol.146, p.140, 2013.

R. Gomes, H. F. Levison, K. Tsiganis, and A. Morbidelli, , vol.435, p.466, 2005.

J. Gonzalez, G. Laibe, S. T. Maddison, C. Pinte, and F. Ménard, P&SS, vol.116, p.48, 2015.

T. Guillot, S. Ida, and C. W. Ormel, A&A, vol.572, p.72, 2014.

C. Hayashi, PThPS, vol.70, p.35, 1981.

R. Heller, D. Williams, and D. Kipping, AsBio, vol.14, p.798, 2014.

A. Johansen, J. Blum, and H. Tanaka, Protostars and Planets VI, p.547, 2014.

A. Johansen and P. Lacerda, MNRAS, vol.404, p.475, 2010.

A. Johansen, M. Mac-low, P. Lacerda, and M. Bizzarro, SciA, vol.1, p.1500109, 2015.

H. Kobayashi, C. W. Ormel, and S. Ida, ApJ, vol.756, p.70, 2012.

G. A. Krasinsky, E. V. Pitjeva, M. V. Vasilyev, and E. I. Yagudina, Icar, vol.158, p.98, 2002.

T. S. Kruijer, C. Burkhardt, G. Budde, and T. Kleine, PNAS, vol.114, p.6712, 2017.

M. Lambrechts and A. Johansen, A&A, vol.544, p.32, 2012.

M. Lambrechts and A. Johansen, A&A, vol.572, p.107, 2014.

M. Lambrechts, A. Johansen, and A. Morbidelli, A&A, vol.572, p.35, 2014.

M. H. Lee and S. J. Peale, ApJ, vol.567, p.596, 2002.

H. F. Levison, W. F. Bottke, and M. Gounelle, , vol.460, p.364, 2009.

H. F. Levison, K. A. Kretke, and M. J. Duncan, , vol.524, p.322, 2015.

H. F. Levison, E. Thommes, and M. J. Duncan, AJ, vol.139, p.1297, 2010.

D. N. Lin and J. Papaloizou, ApJ, vol.309, p.846, 1986.

J. I. Lunine and D. J. Stevenson, Icar, vol.52, p.14, 1982.

M. N. Machida, E. Kokubo, S. Inutsuka, and T. Matsumoto, ApJ, vol.685, p.1220, 2008.

F. Masset, A&AS, vol.141, p.165, 2000.

A. Morbidelli and A. Crida, Icar, vol.191, p.158, 2007.

A. Morbidelli, H. F. Levison, K. Tsiganis, and R. Gomes, , vol.435, p.462, 2005.

A. Morbidelli, J. Szulágyi, and A. Crida, Icar, vol.232, p.266, 2014.

A. Morbidelli, K. J. Walsh, D. P. O&apos;brien, D. A. Minton, and W. F. Bottke, , p.493, 2015.

I. Mosqueira and P. R. Estrada, Icar, vol.163, 0198.

I. Mosqueira and P. R. Estrada, Icar, vol.163, p.232, 2003.

I. Mosqueira, P. R. Estrada, and S. Charnoz, Icar, vol.207, p.448, 2010.

O. Mousis and D. Gautier, P&SS, vol.52, p.361, 2004.

C. W. Ormel and H. H. Klahr, A&A, vol.520, p.43, 2010.

S. Paardekooper, A&A, vol.462, p.355, 2007.

S. Paardekooper and G. Mellema, A&A, vol.453, p.1129, 2006.

S. J. Peale and R. M. Canup, Treatise on Geophysics, 2015.

H. B. Perets and R. A. Murray-clay, ApJ, vol.733, p.56, 2011.

A. Pierens, S. N. Raymond, D. Nesvorny, and A. Morbidelli, ApJL, vol.795, p.11, 2014.

J. B. Pollack, O. Hubickyj, and P. Bodenheimer, Icar, vol.124, p.62, 1996.

S. N. Raymond and A. Izidoro, Icar, vol.297, p.134, 2017.

H. Rein and D. S. Spiegel, MNRAS, vol.446, p.1424, 2015.

H. Rein and D. Tamayo, MNRAS, vol.452, p.376, 2015.

T. Ronnet, O. Mousis, and P. Vernazza, ApJ, vol.845, p.92, 2017.

J. Salmon and R. M. Canup, ApJ, vol.836, p.109, 2017.

T. Sasaki, G. R. Stewart, and S. Ida, ApJ, vol.714, p.1052, 2010.

D. Schoonenberg and C. W. Ormel, A&A, vol.602, p.21, 2017.

N. I. Shakura and R. A. Sunyaev, A&A, vol.24, p.337, 1973.

Y. Shibaike, S. Okuzumi, T. Sasaki, and S. Ida, ApJ, vol.846, p.81, 2017.

M. Shiraishi and S. Ida, ApJ, vol.684, p.1416, 2008.

R. Suetsugu and K. Ohtsuki, ApJ, vol.839, p.66, 2017.

R. Suetsugu, K. Ohtsuki, and T. Fujita, AJ, vol.151, p.140, 2016.

K. D. Supulver and D. N. Lin, Icar, vol.146, p.525, 2000.

J. Szulágyi, A. Morbidelli, A. Crida, and F. Masset, ApJ, vol.782, p.65, 2014.

T. Tanigawa, K. Ohtsuki, and M. N. Machida, ApJ, vol.747, p.47, 2012.

A. Teachey, D. M. Kipping, and A. R. Schmitt, , 2017.

P. Vernazza, J. Castillo-rogez, and P. Beck, AJ, vol.153, p.72, 2017.

D. Vokrouhlický, W. F. Bottke, and D. Nesvorný, AJ, vol.152, p.39, 2016.

K. J. Walsh, A. Morbidelli, S. N. Raymond, D. P. O&apos;brien, and A. M. Mandell, , vol.475, p.206, 2011.

S. J. Weidenschilling, MNRAS, vol.180, p.57, 1977.

Z. Zhu, R. P. Nelson, R. Dong, C. Espaillat, L. Hartmann et al., ApJ, vol.755, p.678, 2012.

A. Bouquet, O. Mousis, and B. Teolis, ApJL, vol.490, p.368, 1997.

F. J. Ciesla, ApJ, vol.723, p.514, 2010.

F. J. Ciesla, ApJ, vol.740, p.9, 2011.

F. J. Ciesla and S. A. Sandford, Sci, vol.336, p.452, 2012.

J. F. Cooper, E. R. Christian, J. D. Richardson, and C. Wang, EM&P, vol.92, p.261, 2003.

A. Drouart, B. Dubrulle, D. Gautier, and F. Robert, Icar, vol.140, p.129, 1999.

F. Dulieu, M. Minissale, and D. Bockelée-morvan, A&A, vol.597, p.56, 2017.

L. Hartmann, N. Calvet, E. Gullbring, and P. &amp;-d&apos;alessio, ApJ, vol.495, p.385, 1998.

R. E. Johnson, JGR, vol.96, p.17, 1991.

O. Mousis, A. Drouard, and P. Vernazza, ApJL, vol.839, p.4, 2017.

O. Mousis, O. Ozgurel, and J. I. Lunine, ApJ, vol.835, p.134, 2017.

O. Mousis, T. Ronnet, and B. Brugger, ApJL, vol.823, p.41, 2016.

H. B. Perets and R. A. Murray-clay, ApJ, vol.733, p.56, 2011.

T. Ronnet, O. Mousis, and P. Vernazza, ApJ, vol.845, p.92, 2017.

M. Rubin, K. Altwegg, E. F. Van-dishoeck, and G. Schwehm, ApJL, vol.815, p.11, 2015.

N. I. Shakura and R. A. Sunyaev, A&A, vol.24, p.337, 1973.

K. D. Supulver and D. N. Lin, Icar, vol.146, p.525, 2000.

T. Takeuchi and D. N. Lin, ApJ, vol.581, p.1344, 2002.

V. Taquet, K. Furuya, C. Walsh, and E. F. Van-dishoeck, MNRAS, vol.462, p.99, 2016.

B. D. Teolis, C. Plainaki, T. A. Cassidy, and U. Raut, JGRE, vol.122, 1996.

S. J. Weidenschilling, MNRAS, vol.180, p.57, 1977.

S. J. Weidenschilling and J. N. Cuzzi, Protostars and Planets III, p.1031, 1993.

Y. Yao and K. P. Giapis, NatCo, vol.8, p.15298, 2017.

A. G. Yeghikyan, Ap, vol.54, p.87, 2011.

A. N. Youdin and Y. Lithwick, Icar, vol.192, p.588, 2007.

J. F. Ziegler, M. D. Ziegler, and J. P. Biersack, NIMPB, vol.268, p.1818, 2010.