Abstract
AA Tau has been monitored for more than 20 years since 1987, exhibiting a nearly constant brightness level of V=12.5 mag. We report here that in 2011 it suddenly faded away, becoming 2 magnitudes fainter in the V-band, and has remained in this deep state since then. We report new optical and near-IR photometry and spectroscopy obtained during the fading event. The system appears much redder and fainter than it was in the bright state. Also, the 8.2d photometric period continuously observed for more than 20 years is not seen during most of the deep state. The analysis of the system's brightness and colors suggests that the visual extinction on the line of sight has increased by about 3-4 magnitudes in the deep state. At optical wavelengths, the system appears to be dominated by scattered light, probably originating from the upper surface layers of a highly inclined circumstellar disk. The profiles of the Balmer lines have significantly changed as well, with the disappearance of a central absorption component regularly observed in the bright state. We ascribe this change to the scattering of the system's spectrum by circumstellar dust. Noticeably, the mass accretion rate in the inner disk and onto the central star has not changed as the system faded away. We conclude that the deepening of the AA Tau system is due to a sudden increase of circumstellar dust extinction on the line of sight without concomitant change in the accretion rate. We suggest that the enhanced obscuration may be produced by a non-axisymmetric overdense region in the disk, located at a distance of 7.7 AU or more, that was recently brought on the line of sight by its keplerian motion around the central star.
Highlights
A young, low-mass member of the 1–3 Myr Taurus association (Kenyon & Hartmann 1995), AA Tau has provided many clues to the magnetically mediated accretion process occurring in young stellar objects
At some point in 2011 the average brightness level suddenly decreased by 2 mag, from V = 12.8 to V = 15, and the maximum brightness level dimmed below V = 14
Low-mass AA Tau accreting system has exhibited a stable photometric behavior during a period extending over 24 years (1987–2011), we have reported here its sudden dimming by about 2 mag that started in 2011 and is still on-going
Summary
A young, low-mass member of the 1–3 Myr Taurus association (Kenyon & Hartmann 1995), AA Tau has provided many clues to the magnetically mediated accretion process occurring in young stellar objects. The strong large-scale magnetic fields measured at the surface of young low-mass stars (Donati & Landstreet 2009) are thought to be able to disrupt the inner accretion disk surrounding the central star up to a distance of several stellar radii (Camenzind 1990; Königl 1991). Many clues have been gathered that suggest that magnetospheric accretion is quite a common process in young accreting low-mass stars (see, e.g., Bouvier et al 2007a for a review)
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