Your learning goals for extrasolar planets FS 2016 • What is the current status of exoplanet research? How many planets do we know? What are their properties? • How can exoplanets be detected and characterized? What are the technical limitations? • Why is exoplanet research interesting and popular? What is the main motivation for exoplanet research? • Being able to link personal background to exoplanet research • Get input concerning exoplanets as potential future research field • Learn more about the physics of planets and their formation
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Your learning goals for extrasolar planets FS 2016
• What is the current status of exoplanet research? How many planets do we know? What are their properties?
• How can exoplanets be detected and characterized? What are the technical limitations?
• Why is exoplanet research interesting and popular? What is the main motivation for exoplanet research?
• Being able to link personal background to exoplanet research
• Get input concerning exoplanets as potential future research field
• Learn more about the physics of planets and their formation
Mo6on of the sun as seen from 10 pc
In-‐class ac6vity (1) 1) Assume Jupiter orbits at 5 AU around the Sun in an eccentric orbit with e=0.5. Where does the planet spend most of its time? A) Close to periastron B) Close to apastron C) Same everywhere on its orbit D) Need more information to answer this question
2) In another planetary system an Earth-like planet orbits in exactly the same orbit around a star that has exactly the same properties as the star in the Jupiter-system described above. Compared to that Jupiter one year for the twin-Earth is A) Shorter B) Longer C) The same
51 Peg b detec6on by Mayor and Queloz
G5 V star P = 527 days K = 97 m/s e = 0.90 MP sin i = 1.56 MJ a sin i = 1.28 plus long period >20 year brown dwarf or low mass star
Highly eccentric orbit Tamuz et al. 2008, A&A 480, L33
Mul6planet system HD40307
Mayor et al. 2009, A&A 493, 639
Radial velocity measurements and the absorp6on lines in the solar spectrum