期刊
ASTROPHYSICAL JOURNAL
卷 623, 期 1, 页码 291-301出版社
IOP PUBLISHING LTD
DOI: 10.1086/428434
关键词
stars : activity; stars : magnetic fields; stars : pre-main-sequence; stars : rotation; X-rays : stars
With the XMM-Newton and Chandra observatories, we detected two extremely embedded X-ray sources in the R Corona Australis (R CrA) star-forming core, near IRS 7. These sources, designated as X-E and X-W, have X-ray absorption columns of similar to 3 x 10(23) cm(-2) equivalent to A(V) similar to 180 mag. They are associated with the VLA centimeter radio sources 10E and 10W, respectively; XW is the counterpart of the near-infrared source IRS 7, whereas XE has no K-band counterpart above 19.4 mag. This indicates that XE is younger than typical Class I protostars, probably a Class 0 protostar, or in an intermediate phase between Class 0 and Class I. The X-ray luminosity of X-E varied between 29 < log L-X < 31.2 ergs s(-1) on timescales of 3 - 30 months; X-E also showed a monotonic increase in X-ray brightness by a factor of 2 in 30 ks during an XMM-Newton observation. The XMM-Newton spectra indicate emission from a hot plasma with kT similar to 3-4 keV and also show fluorescent emission from cold iron. Although the X-ray spectrum from X-E is similar to flare spectra from Class I protostars in luminosity and temperature, the light curve does not resemble the light curves of magnetically generated X-ray flares, because the variability timescale of X-E is too long and variations in X-ray count rate were not accompanied by variations in spectral hardness. The short-term variation of X-E may be caused by the partial blocking of the X-ray plasma, while the month-long flux enhancement may be driven by mass accretion.
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