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How dusty is alpha Centauri? Excess or non-excess over the infrared photospheres of main-sequence stars

Joachim Wiegert (Institutionen för rymd- och geovetenskap, Radioastronomi och astrofysik) ; René Liseau (Institutionen för rymd- och geovetenskap, Radioastronomi och astrofysik) ; P. Thébault ; G. Olofsson ; A. Mora ; G. Bryden ; J. P. Marshall ; C. Eiroa ; B. Montesinos ; D. Ardila ; J. C. Augereau ; A. Bayo Aran ; W. C. Danchi ; C. del Burgo ; S. Ertel ; M. C. W. Fridlund ; Mitra Hajigholi (Institutionen för rymd- och geovetenskap, Radioastronomi och astrofysik) ; A. V. Krivov ; G. L. Pilbratt ; A. Roberge ; G. J. White ; S. Wolf
Astronomy and Astrophysics (0004-6361). Vol. 563 (2014), p. A102.
[Artikel, refereegranskad vetenskaplig]

Context. Debris discs around main-sequence stars indicate the presence of larger rocky bodies. The components of the nearby, solar-type binary alpha Centauri have metallicities that are higher than solar, which is thought to promote giant planet formation. Aims. We aim to determine the level of emission from debris around the stars in the alpha Cen system. This requires knowledge of their photospheres. Having already detected the temperature minimum, Tmin , of alpha Cen A at far-infrared wavelengths, we here attempt to do the same for the more active companion alpha Cen B. Using the alpha Cen stars as templates, we study the possible effects that Tmin may have on the detectability of unresolved dust discs around other stars. Methods. We used Herschel-PACS, Herschel-SPIRE, and APEX-LABOCA photometry to determine the stellar spectral energy distributions in the far infrared and submillimetre. In addition, we used APEX-SHeFI observations for spectral line mapping to study the complex background around alpha Cen seen in the photometric images. Models of stellar atmospheres and of particulate discs, based on particle simulations and in conjunction with radiative transfer calculations, were used to estimate the amount of debris around these stars. Results. For solar-type stars more distant than alpha Cen, a fractional dust luminosity fd = Ldust/Lstar ~ 2*10^−7 could account for SEDs that do not exhibit the Tmin effect. This is comparable to estimates of fd for the Edgeworth-Kuiper belt of the solar system. In contrast to the far infrared, slight excesses at the 2.5sigma level are observed at 24 micron for both alpha Cen A and B, which, if interpreted as due to zodiacal-type dust emission, would correspond to fd ~(1−3)*10^−5 , i.e. some 10^2 times that of the local zodiacal cloud. Assuming simple power-law size distributions of the dust grains, dynamical disc modelling leads to rough mass estimates of the putative Zodi belts around the alpha Cen stars, viz. <4*10^−6 MMoon of 4 to 1000 micron size grains, distributed according to n(a)~a^−3.5 . Similarly, for filled-in Tmin emission, corresponding Edgeworth-Kuiper belts could account for ~10^−3 MMoon of dust. Conclusions. Our far-infrared observations lead to estimates of upper limits to the amount of circumstellar dust around the stars alpha Cen A and B. Light scattered and/or thermally emitted by exo-Zodi discs will have profound implications for future spectroscopic missions designed to search for biomarkers in the atmospheres of Earth-like planets. The far-infrared spectral energy distribution of alpha Cen B is marginally consistent with the presence of a minimum temperature region in the upper atmosphere of the star. We also show that an alpha Cen A-like temperature minimum may result in an erroneous apprehension about the presence of dust around other, more distant stars.

Nyckelord: stars: individual: Alpha Centauri / binaries: general / circumstellar matter / infrared: stars / infrared: planetary systems / submillimeter: stars



Denna post skapades 2014-03-21. Senast ändrad 2015-04-22.
CPL Pubid: 195435

 

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Institutioner (Chalmers)

Institutionen för rymd- och geovetenskap, Radioastronomi och astrofysik (2010-2017)

Ämnesområden

Astronomi

Chalmers infrastruktur

Onsala rymdobservatorium

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