So I ask this: at this point in time, what kind of telescope project would be the most realistic way of finding out more about known exoplanets?
CHEOPS - CHaracterizing ExOPlanet Satellite - will be the first mission dedicated to searching for exoplanetary transits by performing ultrahigh precision photometry on bright stars already known to host planets. It will provide the unique capability of determining accurate radii for a subset of those planets, in the super-Earth to Neptune mass range, for which the mass has already been estimated using ground-based spectroscopic surveys. CHEOPS will also provide precision radii for new planets of Neptune-size and smaller that are discovered by the next generation of ground-based transit surveys.
Characterizing the atmosphere of exoplanets would be particularily interesting since it would allow us to detect life.
I'd wondered if SLS would bring the 8 meter monolithic mirror scope back into play. It would be vastly simpler, less risky and more reliable than the segmented mirrors like JWST.
Maybe, but don't hold your breath. It will be be very long time before we are able to take a spectra of a terrestrial planet.
Quote from: simonbpMaybe, but don't hold your breath. It will be be very long time before we are able to take a spectra of a terrestrial planet.That is why I was pleasantly surprised to see such a mission proposed already for 2017 (FINESSE). 2024 for EChO isn't that far off either.
It has been estimated that a telescope with a diameter of 80 meters would be able to spectroscopically analyse Earth-size planets around the forty nearest sun-like stars. As such, this telescope could help in the exploration of extrasolar planets and extraterrestrial life (because the spectrum from the planets could indicate the presence of molecules indicative of life).
^Although here it says you need a 80 meter telescope...http://en.wikipedia.org/wiki/Overwhelmingly_Large_TelescopeQuoteIt has been estimated that a telescope with a diameter of 80 meters would be able to spectroscopically analyse Earth-size planets around the forty nearest sun-like stars. As such, this telescope could help in the exploration of extrasolar planets and extraterrestrial life (because the spectrum from the planets could indicate the presence of molecules indicative of life).
But first you would need to detect the Earth-sized exoplanets orbiting the nearest Sun-like stars.