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Article Dans Une Revue Astronomy and Astrophysics - A&A Année : 2007

X-ray emission from the young brown dwarfs of the Taurus Molecular Cloud

Résumé

AIMS. We report the X-ray properties of young (~3 Myr) bona fide brown dwarfs (BDs) of the Taurus Molecular Cloud (TMC). METHODS. The XMM-Newton Extended Survey of the TMC (XEST) is a large program designed to systematically investigate the X-ray properties of young stellar/substellar objects in the TMC. In particular, the area surveyed by 15 XMM-Newton pointings (of which three are archival observations), supplemented with one archival Chandra observation, allows us to study 17 BDs with M spectral types. RESULTS. Half of this sample (9 out of 17 BDs) is detected; 7 BDs are detected here for the first time in X-rays. We observed a flare from one BD. We confirm several previous findings on BD X-ray activity: a log-log relation between X-ray and bolometric luminosity for stars (with L*<10 Lsun) and BDs detected in X-rays, which is consistent with a mean X-ray fractional luminosity =-3.5±0.4; for the XEST BDs, the median of log(Lx/L*) (including upper limits) is -4.0; a shallow log-log relation between X-ray fractional luminosity and mass; a log-log relation between X-ray fractional luminosity and effective temperature; a log-log relation between X-ray surface flux and effective temperature. We find no significant log-log correlation between the X-ray fractional luminosity and EW(Halpha). Accreting and nonaccreting BDs have a similar X-ray fractional luminosity. The median X-ray fractional luminosity of nonaccreting BDs is about 4 times lower than the mean saturation value for rapidly rotating low-mass field stars. Our TMC BDs have higher X-ray fractional luminosity than BDs in the Chandra Orion Ultradeep Project. CONCLUSIONS. The X-ray fractional luminosity declines from low-mass stars to M-type BDs, and as a sample, the BDs are less efficient X-ray emitters than low-mass stars. We thus conclude that while the BD atmospheres observed here are mostly warm enough to sustain coronal activity, a trend is seen that may indicate its gradual decline due to the drop in photospheric ionization degree.
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Dates et versions

hal-00090499 , version 1 (31-08-2006)

Identifiants

  • HAL Id : hal-00090499 , version 1

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Nicolas Grosso, Kevin R. Briggs, Manuel Güdel, Sylvain Guieu, Elena Franciosini, et al.. X-ray emission from the young brown dwarfs of the Taurus Molecular Cloud. Astronomy and Astrophysics - A&A, 2007, 468 (2), pp.391-404. ⟨hal-00090499⟩
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