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Herschel/HIFI observations of ionised carbon in the beta Pictoris debris disk

G. Cataldi ; A. Brandeker ; G. Olofsson ; B. Larsson ; René Liseau (Institutionen för rymd- och geovetenskap, Onsala rymdobservatorium) ; J. Blommaert ; M. Fridlund ; R. Ivison ; E. Pantin ; B. Sibthorpe ; B. Vandenbussche ; Y. Wu
Astronomy and Astrophysics (0004-6361). Vol. 563 (2014),
[Artikel, refereegranskad vetenskaplig]

Context. The dusty debris disk around the similar to 20 Myr old main-sequence A-star beta Pictoris is known to contain gas. Evidence points towards a secondary origin of the gas as opposed to being a direct remnant from the initial protoplanetary disk, although the dominant gas production mechanism is so far not identified. The origin of the observed overabundance of C and O compared with solar abundances of metallic elements such as Na and Fe is also unclear. Aims. Our goal is to constrain the spatial distribution of C in the disk, and thereby the gas origin and its abundance pattern. Methods. We used the HIFI instrument on board the Herschel Space Observatory to observe and spectrally resolve C II emission at 158 mu m from the beta Pic debris disk. Assuming a disk in Keplerian rotation and a model for the line emission from the disk, we used the spectrally resolved line profile to constrain the spatial distribution of the gas. Results. We detect the C II 158 mu m emission. Modelling the shape of the emission line shows that most of the gas is located at about similar to 100 AU or beyond. We estimate a total C gas mass of 1.3(-0.5)(+1.3) x 10(2) M-circle plus (central 90% confidence interval). The data suggest that more gas is located on the south-west side of the disk than on the north-east side. The shape of the emission line is consistent with the hypothesis of a well mixed gas (constant C/Fe ratio throughout the disk). Assuming instead a spatial profile expected from a simplified accretion disk model, we found it to give a significantly poorer fit to the observations. Conclusions. Since the bulk of the gas is found outside 30 AU, we argue that the cometary objects known as "falling evaporating bodies" are probably not the dominant source of gas; production from grain-grain collisions or photodesorption seems more likely. The incompatibility of the observations with a simplified accretion disk model might favour a preferential depletion explanation for the overabundance of C and O, although it is unclear how much this conclusion is affected by the simplifications made. More stringent constraints on the spatial distribution will be available from ALMA observations of C I emission at 609 mu m.

Nyckelord: protoplanetary disks, stars: individual: beta Pictoris, planetary systems, methods: observational, circumstellar matter, infrared: general, CIRCUMSTELLAR DISK, PLANET FORMATION, NEARBY STARS, GAS EMISSION, MOVING, GROUP, SYSTEM, LIFETIMES, DUST, HIPPARCOS, EVOLUTION



Denna post skapades 2014-05-15. Senast ändrad 2015-01-16.
CPL Pubid: 198114

 

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Institutioner (Chalmers)

Institutionen för rymd- och geovetenskap, Onsala rymdobservatorium

Ämnesområden

Astronomi, astrofysik och kosmologi

Chalmers infrastruktur