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Astronomy Colloquium

OSU Astronomy Colloquium (Image Source: NASA)
January 18, 2018
2:30PM - 3:30PM
1080 Physics Research Building

Date Range
Add to Calendar 2018-01-18 14:30:00 2018-01-18 15:30:00 Astronomy Colloquium The Nature and Demographics of Small Exoplanets Diana Dragomir - MIT Kavli Institute The number of known transiting exoplanets has increased manyfold in the years since Kepler was launched, mainly thanks to the abundant harvest from the mission itself. Statistical analyses of the planets discovered by Kepler indicate that planets with sizes between 1 and 4 Earth radii are more common than larger ones in our galaxy. These planets can theoretically have a wide range of compositions which we are just beginning to explore observationally. Meaningful constraints on their atmospheres, masses and radii - and thus their density and composition - are generally feasible only for those planets that transit bright, nearby stars. I will present the small ensemble of known sub-Neptune exoplanets that are amenable to mass measurements or atmospheric characterization. I will discuss what we have learned about these systems so far, and how they inform our current understanding of this population of exoplanets. I will conclude by describing how TESS will revolutionize this understanding by significantly increasing the number of known small exoplanets with bright host stars. This ensemble of well-characterized small exoplanets can then be statistically leveraged to uncover new trends and gain deeper insights into their composition, and ultimately their formation. Coffee and Donuts will be served at 2:00pm in 4054 McPherson Lab.  1080 Physics Research Building Department of Astronomy astronomy@osu.edu America/New_York public

The Nature and Demographics of Small Exoplanets 

Diana Dragomir - MIT Kavli Institute 

The number of known transiting exoplanets has increased manyfold in the years since Kepler was launched, mainly thanks to the abundant harvest from the mission itself. Statistical analyses of the planets discovered by Kepler indicate that planets with sizes between 1 and 4 Earth radii are more common than larger ones in our galaxy. These planets can theoretically have a wide range of compositions which we are just beginning to explore observationally. Meaningful constraints on their atmospheres, masses and radii - and thus their density and composition - are generally feasible only for those planets that transit bright, nearby stars. I will present the small ensemble of known sub-Neptune exoplanets that are amenable to mass measurements or atmospheric characterization. I will discuss what we have learned about these systems so far, and how they inform our current understanding of this population of exoplanets. I will conclude by describing how TESS will revolutionize this understanding by significantly increasing the number of known small exoplanets with bright host stars. This ensemble of well-characterized small exoplanets can then be statistically leveraged to uncover new trends and gain deeper insights into their composition, and ultimately their formation. 

Coffee and Donuts will be served at 2:00pm in 4054 McPherson Lab.