Astronomy and Astrophysics – Astrophysics
Scientific paper
2005-06-30
Astrophys.J.632:670-676,2005
Astronomy and Astrophysics
Astrophysics
10 pages, 5 figures in emulateapj style. tp appear in Oct 20, 2005, issue of ApJ
Scientific paper
10.1086/433179
The ``minimum-mass solar nebula'' (MMSN) model estimates the surface density distribution of the protoplanetary disk by assuming the planets to have formed in situ. However, significant radial migration of the giant planets likely occurred in the Solar system, implying a distortion in the values derived by the MMSN method. The true density profiles of protoplanetary disks is therefore uncertain. Here we present results of simulations of late-stage terrestrial accretion, each starting from a disk of planetary embryos. We assume a power-law surface density profile that varies with heliocentric distance r as r^-alpha, and vary alpha between 1/2 and 5/2 (alpha = 3/2 for the MMSN model). We find that for steeper profiles (higher values of alpha), the terrestrial planets (i) are more numerous, (ii) form more quickly, (iii) form closer to the star, (iv) are more massive, (v) have higher iron contents, and (vi) have lower water contents. However, the possibility of forming potentially habitable planets does not appear to vary strongly with alpha.
Lunine Jonathan I.
Quinn Thomas
Raymond Sean N.
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