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Post Info TOPIC: q1 Eridani


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HD 10647
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A flying observatory has taken the first ultrasharp images of rings of cold debris around sunlike stars. The doughnut-shaped rings appear to be extrasolar analogues of the Kuiper belt, the outer solar system's reservoir of comets and other frozen bodies.
The newly observed rings are either left over from the planet-making process or were generated when planets collided. Astronomers used the European Space Agency's infrared Herschel Space Observatory, which sports the largest light-collecting mirror in space and is exquisitely sensitive to cold, sand-grain-sized dust, to photograph the belts.

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HD 10647 b
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HD 10647 b, also catalogued as q1 Eridani b, is an extrasolar planet approximately 57 light-years  away in the constellation of Eridanus (the River).
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RE: q1 Eridani
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q1 Eridani

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q1 Eridani / HD 10647 / HR 506 / CP(D)-54 365
Spectral type F8-9 V
Distance 56.6 ly
1.1  Solar masses

Position: RA: 01 42 29.3157,  Dec: -53 44 27.003

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Title: q1 Eri: a solar-type star with a planet and a dust belt
Authors: R. Liseau, C. Risacher, A. Brandeker, C. Eiroa, M. Fridlund, R. Nilsson, G. Olofsson, G. Pilbratt, P. Thebault

Only very few solar-type stars exhibiting an infrared excess and harbouring planets are known to date. Indeed, merely a single case of a star-planet-disk system has previously been detected at submillimeter (submm) wavelengths. Consequently, one of our aims is to understand the reasons for these poor statistics, i.e., whether these results reflected the composition and/or the physics of the planetary disks or were simply due to observational bias and selection effects. Finding more examples would be very significant. The selected target, q1 Eri, is a solar-type star, which was known to possess a planet, q1 Eri b, and to exhibit excess emission at IRAS wavelengths, but had remained undetected in the millimetre regime. Therefore, submm flux densities would be needed to better constrain the physical characteristics of the planetary disk. Consequently, we performed submm imaging observations of q1 Eri. The detected dust toward q1 Eri at 870 micron exhibits the remarkable fact that the entire SED, from the IR to mm-wavelengths, is fit by a single temperature blackbody function (60 K). This would imply that the emitting regions are confined to a narrow region (ring) at radial distances much larger than the orbital distance of q1 Eri b, and that the emitting particles are considerably larger than some hundred micron. However, the 870 micron source is extended, with a full-width-half-maximum of roughly 600 AU. Therefore, a physically more compelling model also invokes a belt of cold dust (17 K), located at 300 AU from the star and about 60 AU wide. The minimum mass of 0.04 Mearth (3 Mmoon) of 1 mm-size icy ring-particles is considerable, given the stellar age of about 1 Gyr. These big grains form an inner edge at about 25 AU, which may suggest the presence of an unseen outer planet (q1 Eri c).

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