Mathematics – Probability
Scientific paper
Oct 2010
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010dps....42.5204r&link_type=abstract
American Astronomical Society, DPS meeting #42, #52.04; Bulletin of the American Astronomical Society, Vol. 42, p.1070
Mathematics
Probability
Scientific paper
Models of planet formation around M stars suggest that majority of these planets may be of Neptune size or smaller. The detection of Jupiter-like planets in close-in orbit around M stars raises the possibility that many of these system may harbor additional planets, perhaps of smaller sizes and in smaller orbits. These planets are potentially detectable through transit photometry and transit timing variation method. The orbital architecture of these objects plays an important role in their detectability and is strongly affected by the migration of their giant planets. To determine the connection between the formation, dynamical evolution, and detectability of small planets and the dynamics of a migrating giant body around M stars, we have studied the late stage of terrestrial planet formation during the migration of a Jupiter-sized planet. Results indicate that the in-situ formation of close-in terrestrial planets may be unlikely as most of protoplanetary embryos are scattered out of the system through their interactions with the migrating giant planet. However, Earth-sized and super-Earth objects may form and be captured in mean-motion resonances with the giant body and migrate to stable orbital configurations. We discuss the possibility of such orbits, and the probability of the detection of their corresponding planets for different values of the physical and orbital parameters of the protoplanetary disk and the migrating giant body. Given that the habitable zones of M stars are in close distances (i.e., 20-50 day orbits), we will also present results of the simulations of the formation of habitable planets in such systems, and discuss the possibility of their detection.
Haghighipour Nader
Rastegar Sara
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