The collapse of protoplanetary clumps formed through disc instability: 3D simulations of the pre-dissociation phase

We present 3D smoothed particle hydrodynamics simulations of the collapse of clumps formed through gravitational instability in the outer part of a protoplanetary disc. The initial conditions are taken directly from a global disc simulation, and a realistic equation of state is used to follow the cl...

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Published in	Monthly notices of the Royal Astronomical Society Vol. 427; no. 2; pp. 1725 - 1740
Main Authors	Galvagni, M., Hayfield, T., Boley, A., Mayer, L., Roškar, R., Saha, P.
Format	Journal Article
Language	English
Published	Oxford, UK Blackwell Science Ltd 01.12.2012 Oxford University Press
Subjects	Astrophysics Clumps Collapse Computer simulation Density Discs Disks Fluid dynamics planets and satellites: formation protoplanetary discs Protoplanetary disks Simulation Three dimensional Transport planets and satellites: formation protoplanetary discs
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Abstract	We present 3D smoothed particle hydrodynamics simulations of the collapse of clumps formed through gravitational instability in the outer part of a protoplanetary disc. The initial conditions are taken directly from a global disc simulation, and a realistic equation of state is used to follow the clumps as they contract over several orders of magnitude in density, approaching the molecular hydrogen dissociation stage. The effects of clump rotation, asymmetries and radiative cooling are studied. Rotation provides support against fast collapse, but non-axisymmetric modes develop and efficiently transport angular momentum outwards, forming a circumplanetary disc. This transport helps the clump reach the dynamical collapse phase, resulting from molecular hydrogen dissociation, on a thousand-year time-scale, which is smaller than time-scales predicted by some previous spherical 1D collapse models. Extrapolation to the threshold of the runaway hydrogen dissociation indicates that the collapse time-scales can be shorter than inward migration time-scales, suggesting that clumps could survive tidal disruption and deliver a protogas giant to distances of even a few au from the central star.
AbstractList	We present 3D smoothed particle hydrodynamics simulations of the collapse of clumps formed through gravitational instability in the outer part of a protoplanetary disc. The initial conditions are taken directly from a global disc simulation, and a realistic equation of state is used to follow the clumps as they contract over several orders of magnitude in density, approaching the molecular hydrogen dissociation stage. The effects of clump rotation, asymmetries and radiative cooling are studied. Rotation provides support against fast collapse, but non-axisymmetric modes develop and efficiently transport angular momentum outwards, forming a circumplanetary disc. This transport helps the clump reach the dynamical collapse phase, resulting from molecular hydrogen dissociation, on a thousand-year time-scale, which is smaller than time-scales predicted by some previous spherical 1D collapse models. Extrapolation to the threshold of the runaway hydrogen dissociation indicates that the collapse time-scales can be shorter than inward migration time-scales, suggesting that clumps could survive tidal disruption and deliver a protogas giant to distances of even a few au from the central star. [PUBLICATION ABSTRACT] We present 3D smoothed particle hydrodynamics simulations of the collapse of clumps formed through gravitational instability in the outer part of a protoplanetary disc. The initial conditions are taken directly from a global disc simulation, and a realistic equation of state is used to follow the clumps as they contract over several orders of magnitude in density, approaching the molecular hydrogen dissociation stage. The effects of clump rotation, asymmetries and radiative cooling are studied. Rotation provides support against fast collapse, but non-axisymmetric modes develop and efficiently transport angular momentum outwards, forming a circumplanetary disc. This transport helps the clump reach the dynamical collapse phase, resulting from molecular hydrogen dissociation, on a thousand-year time-scale, which is smaller than time-scales predicted by some previous spherical 1D collapse models. Extrapolation to the threshold of the runaway hydrogen dissociation indicates that the collapse time-scales can be shorter than inward migration time-scales, suggesting that clumps could survive tidal disruption and deliver a protogas giant to distances of even a few au from the central star. ABSTRACT We present 3D smoothed particle hydrodynamics simulations of the collapse of clumps formed through gravitational instability in the outer part of a protoplanetary disc. The initial conditions are taken directly from a global disc simulation, and a realistic equation of state is used to follow the clumps as they contract over several orders of magnitude in density, approaching the molecular hydrogen dissociation stage. The effects of clump rotation, asymmetries and radiative cooling are studied. Rotation provides support against fast collapse, but non‐axisymmetric modes develop and efficiently transport angular momentum outwards, forming a circumplanetary disc. This transport helps the clump reach the dynamical collapse phase, resulting from molecular hydrogen dissociation, on a thousand‐year time‐scale, which is smaller than time‐scales predicted by some previous spherical 1D collapse models. Extrapolation to the threshold of the runaway hydrogen dissociation indicates that the collapse time‐scales can be shorter than inward migration time‐scales, suggesting that clumps could survive tidal disruption and deliver a protogas giant to distances of even a few au from the central star.
Author	Saha, P. Galvagni, M. Hayfield, T. Boley, A. Mayer, L. Roškar, R.
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SubjectTerms	Astrophysics Clumps Collapse Computer simulation Density Discs Disks Fluid dynamics planets and satellites: formation protoplanetary discs Protoplanetary disks Simulation Three dimensional Transport
Title	The collapse of protoplanetary clumps formed through disc instability: 3D simulations of the pre-dissociation phase
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