Astronomy and Astrophysics – Astrophysics
Scientific paper
2006-01-10
Astronomy and Astrophysics
Astrophysics
accepted for publication in ApJ
Scientific paper
[Abridged] The tidal torque exerted by a protoplanetary disk with power law surface density and temperature profiles onto an embedded protoplanetary embryo is generally a negative quantity that leads to the embryo inwards migration. Here we investigate how the tidal torque balance is affected at a disk surface density radial jump. The jump has two consequences : - it affects the differential Lindblad torque. In particular if the disk is merely empty on the inner side, the differential Lindblad torque almost amounts to the large negative outer Lindblad torque. - It affects the corotation torque, which is a quantity very sensitive to the local gradient of the disk surface density. In particular if the disk is depleted on the inside and if the jump occurs radially over a few pressure scale-heights, the corotation torque is a positive quantity that is much larger than in a power-law disk. We show by means of customized numerical simulations of low mass planets embedded in protoplanetary nebulae with a surface density jump that the second effect is dominant, that is that the corotation torque largely dominates the differential Lindblad torque on the edge of a central depletion. As a consequence the type I migration of low mass objects reaching the jump should be halted, and all these objects should be trapped there.
Crida Aurelien
Ferreira Jonathan
Masset Frédéric
Morbidelli Alessandro
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