Back to Search Start Over

Exo-C: a probe-scale space observatory for direct imaging and spectroscopy of extrasolar planetary systems

Authors :
Massachusetts Institute of Technology. Department of Aeronautics and Astronautics
Cahoy, Kerri
Stapelfeldt, Karl R.
Dekens, Frank G.
Brenner, Michael P.
Warfield, Keith R.
Belikov, Ruslan
Brugarolas, Paul B.
Bryden, Geoffrey
Chakrabarti, Supriya
Dubovitsky, Serge
Effinger, Robert T.
Hirsch, Brian
Kissil, Andrew
Krist, John E.
Lang, Jared J.
Marley, Mark S.
McElwain, Michael W.
Meadows, Victoria S.
Nissen, Joel
Oseas, Jeffrey M.
Pong, Chris
Serabyn, Eugene
Sunada, Eric
Trauger, John T.
Unwin, Stephen C.
Massachusetts Institute of Technology. Department of Aeronautics and Astronautics
Cahoy, Kerri
Stapelfeldt, Karl R.
Dekens, Frank G.
Brenner, Michael P.
Warfield, Keith R.
Belikov, Ruslan
Brugarolas, Paul B.
Bryden, Geoffrey
Chakrabarti, Supriya
Dubovitsky, Serge
Effinger, Robert T.
Hirsch, Brian
Kissil, Andrew
Krist, John E.
Lang, Jared J.
Marley, Mark S.
McElwain, Michael W.
Meadows, Victoria S.
Nissen, Joel
Oseas, Jeffrey M.
Pong, Chris
Serabyn, Eugene
Sunada, Eric
Trauger, John T.
Unwin, Stephen C.
Source :
SPIE
Publication Year :
2018

Abstract

"Exo-C" is NASAs first community study of a modest aperture space telescope mission that is optimized for high contrast observations of exoplanetary systems. The mission will be capable of taking optical spectra of nearby exoplanets in reflected light, discovering previously undetected planets, and imaging structure in a large sample of circumstellar disks. It will obtain unique science results on planets down to super-Earth sizes and serve as a technology pathfinder toward an eventual flagship-class mission to find and characterize habitable Earth-like exoplanets. We present the mission/payload design and highlight steps to reduce mission cost/risk relative to previous mission concepts. Key elements are an unobscured telescope aperture, an internal coronagraph with deformable mirrors for precise wavefront control, and an orbit and observatory design chosen for high thermal stability. Exo-C has a similar telescope aperture, orbit, lifetime, and spacecraft bus requirements to the highly successful Kepler mission (which is our cost reference). Much of the needed technology development is being pursued under the WFIRST coronagraph study and would support a mission start in 2017, should NASA decide to proceed. This paper summarizes the study final report completed in March 2015.<br />United States. National Aeronautics and Space Administration. Astrophysics Division

Details

Database :
OAIster
Journal :
SPIE
Notes :
application/pdf
Publication Type :
Electronic Resource
Accession number :
edsoai.on1141888820
Document Type :
Electronic Resource