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On the Dynamical Evolution of Multi-Planet Systems

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Recent advances in radial velocity and transit surveys have led to a large increase in the number of detected multi-planet systems, indicating that such systems are common in the Galaxy. These multi-planet systems bear little resemblance to our own Solar System: most of the detected exo-planets are Super-Earths or Mini-Neptunes, and have periods shorter than 200 days. The discovery of these systems have challenged conventional notions of planetary dynamics, and exposed fertile areas of research. In this thesis, I present three papers on the dynamical evolution of multi-planet systems in the context of findings by Kepler and similar missions. (1) I study the dynamical effects of eccentric and/or misaligned external companions on inner multi-planet systems. (2) I study the effect of hard scatterings between outer giant planets on inner multi-planet systems, and derive a mathematical model to compute the distribution of the final system parameters. (3) Turning my attention inward, I propose a low-eccentricity migration mechanism to explain the origins of ultra-short-period planets, an unusual subset of Kepler planets whose origins are presently not well understood.

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235 pages

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2020-08

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Union Local

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Lai, Dong

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Lunine, Jonathan I.
Lloyd, James
Chernoff, David Fisher

Degree Discipline

Astronomy and Space Sciences

Degree Name

Ph. D., Astronomy and Space Sciences

Degree Level

Doctor of Philosophy

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Government Document

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dissertation or thesis

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