Document 
- Same authors
-
Related articles
- Recommend this article
- Download citation
- Alert me when this article is cited
- Alert me when this article is corrected
BibSonomy
CiteUlike
Connotea
Del.icio.us
Digg
Facebook
|
A&A 500, 1249-1252 (2009)
DOI: 10.1051/0004-6361/200811367
Research Note
Oligarchic planetesimal accretion and giant planet formation II
A. Fortier1, 2, O. G. Benvenuto1, 2, and A. Brunini1, 21 Facultad de Ciencias Astronómicas y Geofísicas, Universidad Nacional de La Plata, Paseo del Bosque s/n (B1900FWA) La Plata, Argentina
e-mail: [afortierp;abrunini;obenvenu]@fcaglp.unlp.edu.ar
2 Instituto de Astrofísica de La Plata, IALP, CCT-CONICET-UNLP, Argentina
Received 17 November 2008 / Accepted 4 March 2009
Abstract
Aims. The equation of state calculated by Saumon and collaborators has been adopted in most core-accretion
simulations of giant-planet formation performed to date. Since some minor errors have been found in their original paper, we present revised simulations of giant-planet formation that considers a
corrected equation of state.
Methods. We employ the same code as Fortier and collaborators in repeating
our previous simulations of the formation of Jupiter.
Results. Although the general conclusions of Fortier and collaborators remain valid, we obtain significantly lower core masses and shorter formation times in all cases considered.
Conclusions. The minor errors in the previously published equation of state have been shown to affect directly the adiabatic gradient and the specific heat, causing an overestimation of both the core masses and formation times.
Key words: planets and satellites: formation -- solar system: formation -- methods: numerical
© ESO 2009
| What is OpenURL? |
