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A&A 396, 345-352 (2002)
DOI: 10.1051/0004-6361:20021371
Coronagraphic search for exo-planets with a hypertelescope
I. In the thermal IR
P. Riaud1, 2, A. Boccaletti1, S. Gillet2, 3, J. Schneider4, A. Labeyrie2, 3, L. Arnold5, J. Baudrand1, O. Lardière2, 3, J. Dejonghe2, 3 and V. Borkowski2, 31 LESIA, Observatoire de Paris-Meudon, 5 place J. Janssen, 92195 Meudon, France
2 LISE-Observatoire de Haute-Provence, 04870 St Michel l'Observatoire, France
e-mail: sgohp@obs-hp.fr; lardiere@obs-hp.fr; dejonghe@obs-hp.fr
3 Collège de France, 11 place M. Berthelot, 75321 Paris, France
e-mail: Labeyrie@obs-hp.fr
4 LUTH, Observatoire de Paris-Meudon, 5 place J. Janssen, 92195 Meudon, France
5 Observatoire de Haute-Provence, 04870 St Michel l'Observatoire, France
e-mail: arnold@obs-hp.fr
(Received 23 May 2002 / Accepted 23 August 2002 )
Abstract
Following the idea developed in Boccaletti et al. (2000), a snapshot imaging interferometer is proposed as an alternative
to the nulling interferometer for the NASA Origin project, "Terrestrial Planet Finder". This concept is based on hypertelescope,
i.e. densified-pupil, imaging (Labeyrie 1996) and phase-mask coronagraphy (Rouan et al. 2000) to combine a very high angular
resolution and a deep attenuation of starlight (
10-8) as required to image extra-terrestrial planets. This article aims at presenting thorough estimations of the signal to noise
ratio for different classes of stars (from F0V to M5V) and includes several sources of background noise (zodiacal and exozodiacal
lights for instance). In addition, numerical simulations have been carried out and are compared to the analytical results.
We find that the image of Earth-like planets can be formed with a large hypertelescope (~80 m) in the thermal infra-red for
about 73% of the stars within 25pc.
Key words: instrumentation: interferometers -- techniques: high angular resolution -- methods: numerical -- stars: planetary systems
Offprint request: P. Riaud, pierre.riaud@obspm.fr
© ESO 2002
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