NEAT: Very high precision astrometry to detect nearby planetary systems down to one Earth mass

1. NEAT:Very high precision astrometry to detect nearby planetary systems down to one Earth mass • F. Malbet, A. Crouzier, M. Shao, A. Léger • and the NEAT collaboration • updated and presented by A. Quirrenbach GREAT-ESF Workshop. Gaia and Exoplanets: GREAT Synergies on the Horizon. Torino 5-7 Nov 2012

2. 17 Corot planets (pencils) 2321 Kepler planets (cone) 471 RV, transit & imaging, +36 HAT +13 WASP planets (cloud) Already known planetary systems 1-4 planets per star (o) 136 Prime target stars (x) prime hunting grounds for direct imaging & astrometry missions

3. What has been detected thanks to RV & imaging around the nearby FGK stars? Less than 10% of nearby stars have known exoplanets so far ! Latest discovery: α Cen Bb

4. Statistics on exoplanets around the 42 nearby FGK stars

5. What types of planets are we missing? Missing low-mass planets !

6. Parameter space for high precision astrometry Missing low-mass planets in HZ !

7. Astrometry desired accuracy A = 0.33 (aP/1AU)  (MP/1M)  (M/1M⊙)-1  (d/10pc)-1μas In order to detect a 1Mplanet in HZ @10pc, one needs to detect a signal ≥ 0.3 μas

8. Primary scientific objectives of very high precision astrometry • The prime goal of very high precision astrometry is: • ‣ to detect and fully characterize planetary systems • ‣ with all components down to one Earth mass • ‣ orbiting bright solar-type stars (FGK,V ≤ 9) • ‣ in the solar neighborhood (d < 20 pc) • with planetary architectures: • similar to that of our Solar System • or any one with Earth mass planets ➥ Key capability: detecting Earth-mass planets in the Habitable Zones of Sun-like stars

9. Simulations of astrometric data

10. Astrometric signal of the Sun located at 10pc  Astrometry works well even with stars 5x more active than the Sun

11. Stellar activity of nearby FGK stars

12. NEAT: a very high precision astrometry mission submitted to ESA Cosmic Mission call for M3 in December 2010 by 70 scientists (full list at http://neat.obs.ujf-grenoble.fr)

16. NEAT planetary targets in the HZ 5 stars at 0.5M / 70 stars at 1M / 200 stars at 5M

18. Conclusion and current status ➠ Science ranked highly by ESA Astronomy Working Group • Gaia synergies • NEAT will observe our closest neighbors inaccessible to Gaia • NEAT’s pointed astrometry can investigate interesting cases from Gaia • NEAT will focus on low-mass planets in the Habitable Zone of FGK stars • NEAT can also investigate all nearby A stars and some M stars • What next? • Lab demonstration under progress to demonstrate 5 μpixel centroiding • Trade-off between Formation Flying vs deployable boom • Science simulations: double blind test • Extension of science cases: young stars, A stars, M dwarfs, NEO, ... • All information at http://neat.obs.ujf-grenoble.fr COSMIC Vision Plan 2015-2025:Theme 1, Section 1.2 ‘‘ On a longer timescale, a complete census of all Earth-sized planets within 100 pc of the Sun would be highly desirable. Building on Gaia’s expected contribution on larger planets, this could be achieved with a high-precision terrestrial planet astrometric surveyor. ’’ We have designed NEAT to be this astrometric surveyor.