A&A 488, 771-780 (2008)
A comprehensive examination of the ϵ Eridani system* Verification of a 4 micron narrow-band high-contrast imaging approach for planet searches1 Max-Planck-Institut für Astronomie, Königstuhl 17, 69117 Heidelberg, Germany e-mail: [janson;brandner;henning;lenzen;hippler]@mpia.de
2 Landessternwarte, Königstuhl 12, 69117 Heidelberg, Germany e-mail: sreffert@lsw.uni-heidelberg.de
Received: 16 April 2008
Accepted: 26 June 2008
Due to its proximity, youth, and solar-like characteristics with a spectral type of K2V, ϵ Eri is one of the most extensively studied systems in an extrasolar planet context. Based on radial velocity, astrometry, and studies of the structure of its circumstellar debris disk, at least two planetary companion candidates to ϵ Eri have been inferred in the literature (ϵ Eri b, ϵ Eri c). Some of these methods also hint at additional companions residing in the system. Here we present a new adaptive optics assisted high-contrast imaging approach that takes advantage of the favourable planet spectral energy distribution at 4 μm, using narrow-band angular differential imaging to provide an improved contrast at small and intermediate separations from the star. We use this method to search for planets at orbits intermediate between ϵ Eri b (3.4 AU) and ϵ Eri c (40 AU). The method is described in detail, and important issues related to the detectability of planets such as the age of ϵ Eri and constraints from indirect measurements are discussed. The non-detection of companion candidates provides stringent upper limits for the masses of additional planets. Using a combination of the existing dynamic and imaging data, we exclude the presence of any planetary companion more massive than 3 Mjup anywhere in the ϵ Eri system. Specifically, with regards to the possible residual linear radial velocity trend, we find that it is unlikely to correspond to a real physical companion if the system is as young as 200 Myr, whereas if it is as old as 800 Myr, there is an allowed semi-major axis range between about 8.5 and 25 AU.
Key words: instrumentation: adaptive optics / planetary systems / stars: late-type / instrumentation: high angular resolution
*Based on observations collected at the European Southern Observatory, Chile (ESO No. 080.C-0598).
© ESO, 2008
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