Astronomy and Astrophysics – Astronomy
Scientific paper
Oct 2008
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2008apj...686..570x&link_type=abstract
The Astrophysical Journal, Volume 686, Issue 1, pp. 570-579.
Astronomy and Astrophysics
Astronomy
19
Methods: Numerical, Stars: Planetary Systems: Formation
Scientific paper
Currently, one of the major theoretical problems concerning planet formation in close binary systems is whether the strong perturbation from the companion star can increase the relative velocities (ΔV) of planetesimals around the primary and thus hinder their growth. According to previous studies, while gas drag can reduce the ΔV between bodies of the same size by forcing orbital alignment on planetesimals, it increases the ΔV among bodies of different sizes. In this paper, focusing on the γ Cephei binary system, we propose a mechanism that can overcome this difficulty. We show that in a dissipating gas disk (with a typical dissipation timescale of ~105-106 yr), all the planetesimals eventually converge toward the same forced orbits regardless of their size, leading to much lower impact velocities. This process of decreasing ΔV progressively increases net mass accretion and can even trigger runaway growth for large bodies (radius above 15 km). The effect of the size distribution of planetesimals is discussed and is found to be one of the dominant factors determining the outcome of collisional evolution. In any case, it can be concluded that by including gas dissipation in the early stages of disk evolution, the conditions for planetesimal accretion become much better, and the progression from planetesimals to planet embryos can be accomplished in close binary systems such as γ Cep.
Xie Ji-Wei
Zhou Ji-Lin
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