Exoplanets at AAS220 according to Twitter

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  • @nbatalha: So far, 72 Kepler candidates have been confirmed as planets
  • RT @NASAKepler J Orosz: More than half of the stars are in binary systems. An important place to search for planets.
  • @NasaKepler: small, close-in planets can form around metal-poor stars, but close-in Jupiters form only around metal-rich stars.
  • jerome orosz: kepler finds 4th circumbinary ('tatooine') planet: kepler-38b, 4.35 R_E, P=105.6 days
  • andrew howard: kepler sees paucity of planets smaller than 2x earth size. could (still) be selection effect, but might be real.
  • Great Result! G Marcy: Transition from Neptunes-like to rocky: Rpl < 2.5 Re
  • natalie batalha: kepler's best candidate yet for earthlike planet in habitable zone of its (cool) star: KOI-2124.01 (1 R_E, P=42.3d)
  • jack lissauer: kepler-33 (5 planets) is extremely flat system, seen *exactly* edge-on #aas220 (all planets follow same chord across star)
  • jason steffen: hot jupiters are very lonely population: no other planets in systems that contain hot jupiter
  • andrew howard: hot jupiters are pretty rare: 1,000x less common than earth-to-neptune-sized planets
  • jason steffen: hot neptunes, hot earths and warm jupiters *do* have companion planets in same system (30%, 30%, 10%)

Habitable migration history

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  • Habitable zone (Galaxy) - the existence of rocky planets requires supernova to create the heavy elements, so the center of the galaxy is better, on the other hand supernova are dangerous for living organisms so you want planets away from galactic center. Solution: The Sun may have originated nearer the center but have migrated outwards.[1] - instead of a GHZ you have a Galactic Habitable History, perhaps this also applies to history of planetary migration within a system - HHs instead of HZs

Under construction

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References

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  1. ^ Earth's wild ride: Our voyage through the Milky Way, New Scientist, issue 2841, November 30, 2011