Abstract
Direct imaging has confirmed the existence of substellar companions on wide orbits. To understand the formation and evolution mechanisms of these companions, the full population properties must be characterized. We aim at detecting giant planet and/or brown dwarf companions around young, nearby, and dusty stars. Our goal is also to provide statistics on the population of giant planets at wide-orbits and discuss planet formation models. We report a deep survey of 59 stars, members of young stellar associations. The observations were conducted with VLT/NaCo at L'-band (3.8 micron). We used angular differential imaging to reach optimal detection performance. A statistical analysis of about 60 % of the young and southern A-F stars closer than 65 pc allows us to derive the fraction of giant planets on wide orbits. We use gravitational instability models and planet population synthesis models following the core-accretion scenario to discuss the occurrence of these companions. We resolve and characterize new visual binaries and do not detect any new substellar companion. The survey's median detection performance reaches contrasts of 10 mag at 0.5as and 11.5 mag at 1as. We find the occurrence of planets to be between 10.8-24.8 % at 68 % confidence level assuming a uniform distribution of planets in the interval 1-13 Mj and 1-1000 AU. Considering the predictions of formation models, we set important constraints on the occurrence of massive planets and brown dwarf companions that would have formed by GI. We show that this mechanism favors the formation of rather massive clump (Mclump > 30 Mj) at wide (a > 40 AU) orbits which might evolve dynamically and/or fragment. For the population of close-in giant planets that would have formed by CA, our survey marginally explore physical separations (<20 AU) and cannot constrain this population.
Highlights
Most of the giant planets have been discovered so far through to indirect techniques (radial velocity (RV) and transit) at short orbits (≤5 AU)
We find the occurrence of planets to be between 10.8 and 24.8% at 68% confidence level assuming a uniform distribution of planets in the interval [1, 13] MJ and [1, 1000] AU
In this paper we report the results of a deep direct imaging survey of 59 young, nearby, and dusty stars aimed at detecting giant planets on wide orbits, conducted between 2009 and 2012
Summary
Most of the giant planets have been discovered so far through to indirect techniques (radial velocity (RV) and transit) at short orbits (≤5 AU). Harbor at least one planet of any mass and with a period of up to 100 days This occurrence decreases to 14% when giant planets larger than 0.3 MJ are considered and varies if we consider giant planets around lower/higher mass stars (Cumming et al 2008; Johnson et al 2010; and Mayor et al 2011) (see Table 1). These rates confirm that planet formation is not rare
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