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Published August 17, 2020 | Submitted
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EarthFinder Probe Mission Concept Study: Characterizing nearby stellar exoplanet systems with Earth-mass analogs for future direct imaging

Plavchan, Peter ORCID icon
Vasisht, Gautam ORCID icon
Beichman, Chas ORCID icon
Cegla, Heather
Dumusque, Xavier ORCID icon
Wang, Sharon ORCID icon
Gao, Peter ORCID icon
Dressing, Courtney ORCID icon
Bastien, Fabienne ORCID icon
Basu, Sarbani ORCID icon
Beatty, Thomas ORCID icon
Bechter, Andrew
Bechter, Eric ORCID icon
Blake, Cullen ORCID icon
Bourrier, Vincent ORCID icon
Cale, Bryson ORCID icon
Ciardi, David ORCID icon
Crass, Jonathan
Crepp, Justin ORCID icon
de Kleer, Katherine ORCID icon
Diddams, Scott ORCID icon
Eastman, Jason ORCID icon
Fischer, Debra ORCID icon
Gagné, Jonathan ORCID icon
Gaudi, Scott
Grier, Catherine ORCID icon
Hall, Richard
Halverson, Sam ORCID icon
Hamze, Bahaa
Herrero Casas, Enrique
Howard, Andrew ORCID icon
Kempton, Eliza ORCID icon
Latouf, Natasha
Leifer, Stephanie ORCID icon
Lightsey, Paul
Lisse, Casey
Martin, Emily C. ORCID icon
Matzko, William
Mawet, Dimitri ORCID icon
Mayo, Andrew ORCID icon
Newman, Patrick
Papp, Scott ORCID icon
Pope, Benjamin
Purcell, Bill
Quinn, Sam ORCID icon
Ribas, Ignasi
Rosich, Albert
Sanchez-Maes, Sophia
Tanner, Angelle ORCID icon
Thompson, Samantha
Vahala, Kerry ORCID icon
Wang, Ji ORCID icon
Williams, Peter
Wise, Alex
Wright, Jason ORCID icon

Abstract

EarthFinder is a NASA Astrophysics Probe mission concept selected for study as input to the 2020 Astrophysics National Academies Decadal Survey. The EarthFinder concept is based on a dramatic shift in our understanding of how PRV measurements should be made. We propose a new paradigm which brings the high precision, high cadence domain of transit photometry as demonstrated by Kepler and TESS to the challenges of PRV measurements at the cm/s level. This new paradigm takes advantage of: 1) broad wavelength coverage from the UV to NIR which is only possible from space to minimize the effects of stellar activity; 2) extremely compact, highly stable, highly efficient spectrometers (R>150,000) which require the diffraction-limited imaging possible only from space over a broad wavelength range; 3) the revolution in laser-based wavelength standards to ensure cm/s precision over many years; 4) a high cadence observing program which minimizes sampling-induced period aliases; 5) exploiting the absolute flux stability from space for continuum normalization for unprecedented line-by-line analysis not possible from the ground; and 6) focusing on the bright stars which will be the targets of future imaging missions so that EarthFinder can use a ~1.5 m telescope.

Additional Information

© 2019. NASA Probe Mission concept white paper for 2020 Astrophysics National Academies Decadal Survey. This research was carried out at George Mason University and the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration. Reference herein to any specific commercial product, process, or service by trade name, trademark, manufacturer, or otherwise, does not constitute or imply its endorsement by the United States Government or the Jet Propulsion Laboratory, California Institute of Technology.

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August 19, 2023
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