Physics
Scientific paper
May 1993
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993icar..103...67d&link_type=abstract
Icarus (ISSN 0019-1035), vol. 103, no. 1, p. 67-92.
Physics
60
Circular Orbits, Planetary Evolution, Planetary Rotation, Protoplanets, Spin Dynamics, Accretion Disks, Angular Momentum, Rotating Disks, Planets, Spin, Rotation, Origin, Formation, Accretion, Angular Momentum, Theoretical Studies, Parameters, Simulation, Numerical Methods, Scaling, Mass, Planetesimals, Obliquity, Rotation, Disk, Velocity, Calculations, Impact Effects, Gravity Effects, Orbits, Distribution, Radius, Depletion, Terrestrial Planets, Equation Of Motion
Scientific paper
We examine the rate of accretion of mass and spin angular momentum by a spherical solid body ('planet') immersed in a differentially rotating disk of particles ('planetesimals'). If the planet travels on a circular orbit, the accretion process is described by two dimensionless parameters r and s, which measure the ratio of the planet's radius to its Hill radius and the ratio of the rms radial velocity of the planetesimals to the shear across the Hill radius, respectively. Using a combination of analytic arguments and numerical simulations, we derive the mass and angular momentum accretion rates and their scaling with r and s. By introducing an additional parameter, the effective mass of the planetesimals relative to the planet, we can derive the obliquities and spins arising from the stochastic nature of the accretion process. Our results are consistent with those of previous calculations by Lissauer and Kary (1991) wherever there is overlap in parameter space. In particular, we conclude that ordered accretion from a uniform or slowly varying disk of small bodies cannot result in rotation as rapid as that of earth or Mars for any value of the disk velocity dispersion s. The spin rates of these planets are most naturally explained as arising from one or a few 'giant' impacts by planetesimals.
Dones Luke
Tremaine Scott
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