Astronomy and Astrophysics – Astrophysics
Scientific paper
2004-07-19
Astrophys.J. 615 (2004) 1000-1010
Astronomy and Astrophysics
Astrophysics
Accepted for publication in ApJ
Scientific paper
10.1086/424588
[Abridged] The torque exerted by an external potential on a two-dimensional gaseous disk at non-co-orbital corotation resonances is studied by means of numerical simulations. The degree of saturation of these resonances is important in determining whether an eccentric giant planet embedded in a protoplanetary disk experiences an eccentricity excitation or damping. We perform calculations restricted to one or two resonances to investigate the properties of two neighboring corotation resonances, as well as the properties of a corotation resonance that overlaps a Lindblad resonance. We find that these properties hardly differ from the case of an isolated corotation resonance. In particular, although the torque of two neighboring corotation resonances may differ from the sum of the torques of the corresponding resonances considered as isolated, it never exceeds the sum of the fully unsaturated isolated corotation resonances, and it saturates in a fashion similar to an isolated resonance. Similarly, the presence of an underlying Lindblad resonance hardly affects the corotation torque, even if that resonance implies a torque strong enough to significantly redistribute the azimuthally averaged surface density profile, in which case the corotation torque scales with the resulting vortensity gradient. This set of numerical experiments thus essentially validates previous analytic studies. As a side result, we show that corotation libration islands misrepresented by a mesh of too low resolution can lead to a strongly overestimated corotation torque. This may be an explanation why the eccentricity of embedded Jupiter-sized planets was never observed to undergo an excitation in the numerical simulations performed so far.
Masset Frédéric
Ogilvie Gordon
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