Roccatagliata, V. and Henning, Th. and Wolf, S. and Rodmann, J. and Corder, S. and Carpenter, J. M. and Meyer, M. R. and Dowell, D. (2009) Long-wavelength observations of debris discs around sun-like stars. Astronomy and Astrophysics, 497 (2). pp. 409-421. ISSN 0004-6361 http://resolver.caltech.edu/CaltechAUTHORS:20090917-205326596
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Context. Tracing the evolution of debris discs is essential for our understanding of the architecture of planetary system. Even though the evolution of their inner discs has been recently studied with the Spitzer Space Telescope at mid- to far-infrared wavelengths, the outer discs are best characterised by sensitive millimetre observations. Aims. The goal of our study is to understand the evolution timescale of circumstellar debris discs, and the physical mechanisms responsible for such evolution around solar-type stars. In addition, we make a detailed characterisation of the detected debris discs. Methods. Two deep surveys of circumstellar discs around solar-type stars at different ages were carried out at 350 μm with the CSO and at 1.2 mm with the IRAM 30-m telescope. The dust disc masses were computed from the millimetre emission, where the discs are optically thin. Theoretically, the mass of the disc is expected to decrease with time. To test this hypothesis, we performed the generalised Kendall’s tau correlation and three different two-sample tests. A characterisation of the detected debris discs has been obtained by computing the collision and Poynting-Robertson timescales and by modelling the spectral energy distribution. Results. The Kendall’s tau correlation yields a probability of 76% that the mass of debris discs and their age are correlated. Similarly, the three two-sample tests give a probability between 70 and 83% that younger and older debris systems belong to different parent populations in terms of dust mass. We detected submillimetre/millimetre emission from six debris discs, enabling a detailed SED modelling. Conclusions. Our results on the correlation and evolution of dust mass as a function of age are conditioned by the sensitivity limit of our survey. Deeper millimetre observations are needed to confirm the evolution of debris material around solar-like stars. In the case of the detected discs, the comparison between collision and Poynting-Robertson timescales supports the hypothesis that these discs are dominated by collisions. All detected debris disc systems show the inner part evacuated from small micron-sized grains.
|Additional Information:||© European Southern Observatory (ESO) 2009. Received 23 September 2008 / Accepted 2 February 2009. All the authors wish to thank the entire FEPS team for their work. V.R. thanks A. Sicilia-Aguilar for helpful discussions on the IRAM data reduction, E. Feigelson for his suggestions about the survival analysis, L. Hillenbrand for some details about the stellar ages, S. J. Kim for her suggestions about the FEPS sample, A. Pasquali and A. Martinez-Sansigre for reading the manuscript. S.W. was supported at the MPIA by the German Research Foundation (DFG) through the Emmy Noether grant WO 857/ 2. J.R. wishes to thank Jesús Falcón-Barroso for a helpful discussion on how to project 3-d isosurfaces to lower dimensions. M.R.M. thanks support provided through the LAPLACE node of the NASA Astrobiology Institute. Research at the Caltech Submillimetre Observatory is supported by grant AST-0540882 from the National Science Foundation.|
|Subject Keywords:||circumstellar matter; planetary systems: formation; stars: late-type; Kuiper Belt|
|Official Citation:||Long-wavelength observations of debris discs around sun-like stars V. Roccatagliata, Th. Henning, S. Wolf, J. Rodmann, S. Corder, J. M. Carpenter, M. R. Meyer, D. Dowell A&A 497 (2) 409-421 (2009) DOI: 10.1051/0004-6361/200811018|
|Usage Policy:||No commercial reproduction, distribution, display or performance rights in this work are provided.|
|Deposited By:||Joy Painter|
|Deposited On:||22 Sep 2009 18:20|
|Last Modified:||26 Dec 2012 11:24|
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