Disks, extrasolar planets and migration
Space Science Reviews 92:1-2 (2000) 323-340
Abstract:
We review results about protoplanetary disk models, protoplanet migration and formation of giant planets with migrating cores. We first model the protoplanetary nebula as an α-accretion disk and present steady state calculations for different values of α and gas accretion rate through the disk. We then review the current theories of protoplanet migration in the context of these models, focusing on the gaseous disk-protoplanet tidal interaction. According to these theories, the migration timescale may be shorter than the planetary formation timescale. Therefore we investigate planet formation in the context of a migrating core, considering both the growth of the core and the build-up of the envelope in the course of the migration.An evaluation of Eulerian and semi-Lagrangian advection schemes in simulations of rotating, stratified flows in the laboratory. Part I: Axisymmetric flow
MONTHLY WEATHER REVIEW 128:8 (2000) 2835-2852
Disk evolution towards planet formation
DISKS, PLANETESIMALS, AND PLANETS, PROCEEDINGS 219 (2000) 19-30
Disks, Extrasolar Planets and Migration
Chapter in From Dust to Terrestrial Planets, Springer Nature 9 (2000) 323-340
Generation of inertia-gravity waves in a baroclinically unstable fluid
QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETY 126:570 (2000) 3233-3254