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Astronomy Colloquium

Artist's rendering of a hot jupiter with a putative satellite
April 30, 2015
4:00PM - 5:00PM
2015 McPherson Laboratory

Date Range
Add to Calendar 2015-04-30 16:00:00 2015-04-30 17:00:00 Astronomy Colloquium Friends of Hot Jupiters:  Exploring the Dynamical Evolution of Planetary SystemsHeather Knutson, California Institute of TechnologySince the discovery of the first extrasolar planet around a sun-like star nearly two decades ago, exoplanets have revolutionized our understanding of planet formation and migration. Although it was suspected at the time that the giant planets in our own solar system might have undergone some orbital evolution, the discovery of a class of short-period gas giant planets known as "hot Jupiters" suggested that planet migration may play a pivotal role in reshaping the architectures of planetary systems. In my talk I will focus on the question of what causes gas giant planets to migrate inward, creating a radical departure from the "standard" arrangement of the planets in our own solar system. In particular, I will examine the hypothesis that dynamical interactions between proto-hot Jupiters and a massive outer stellar or planetary mass companion can result in inward migration and spin-orbit misalignment. Although most hot Jupiters appear to be lacking in nearby planetary companions, I will present the results of a combined Keck radial velocity and adaptive optics search of 50 hot Jupiter systems which indicates that these planets might not be that lonely after all.  Lastly, I will present the results of a new extended survey examining the statistics of long-period companions in a sample of 120 systems with known gas giant planets located at a range of orbital separations.Coffee and Donuts will be served at 3:30pm in MP4054 2015 McPherson Laboratory Department of Astronomy astronomy@osu.edu America/New_York public

Friends of Hot Jupiters:  Exploring the Dynamical Evolution of Planetary Systems

Heather Knutson, California Institute of Technology

Since the discovery of the first extrasolar planet around a sun-like star nearly two decades ago, exoplanets have revolutionized our understanding of planet formation and migration. Although it was suspected at the time that the giant planets in our own solar system might have undergone some orbital evolution, the discovery of a class of short-period gas giant planets known as "hot Jupiters" suggested that planet migration may play a pivotal role in reshaping the architectures of planetary systems. In my talk I will focus on the question of what causes gas giant planets to migrate inward, creating a radical departure from the "standard" arrangement of the planets in our own solar system. In particular, I will examine the hypothesis that dynamical interactions between proto-hot Jupiters and a massive outer stellar or planetary mass companion can result in inward migration and spin-orbit misalignment. Although most hot Jupiters appear to be lacking in nearby planetary companions, I will present the results of a combined Keck radial velocity and adaptive optics search of 50 hot Jupiter systems which indicates that these planets might not be that lonely after all.  Lastly, I will present the results of a new extended survey examining the statistics of long-period companions in a sample of 120 systems with known gas giant planets located at a range of orbital separations.

Coffee and Donuts will be served at 3:30pm in MP4054