posted on 2017-01-04, 14:55authored byL. Rigon, A. Scholz, D. Anderson, Richard West
We present a reference study of the long-term optical variability of young stars using data from the WASP project. Our primary sample is a group of well-studied classical T Tauri stars (CTTSs), mostly in Taurus–Auriga. WASP light curves cover time-scales of up to 7 yr and typically contain 10 000–30 000 data points. We quantify the variability as a function of time-scale using the time-dependent standard deviation ‘pooled sigma’. We find that the overwhelming majority of CTTSs have a low-level variability with σ < 0.3 mag dominated by time-scales of a few weeks, consistent with rotational modulation. Thus, for most young stars, monitoring over a month is sufficient to constrain the total amount of variability over time-scales of up to a decade. The fraction of stars with a strong optical variability (σ > 0.3 mag) is 21 per cent in our sample and 21 per cent in an unbiased control sample. An even smaller fraction (13 per cent in our sample, 6 per cent in the control) show evidence for an increase in variability amplitude as a function of time-scale from weeks to months or years. The presence of long-term variability correlates with the spectral slope at 3–5 μm, which is an indicator of inner disc geometry, and with the U–B band slope, which is an accretion diagnostics. This shows that the long-term variations in CTTSs are predominantly driven by processes in the inner disc and in the accretion zone. Four of the stars with long-term variations show periods of 20–60 d, significantly longer than the rotation periods and stable over months to years. One possible explanation is cyclic changes in the interaction between the disc and the stellar magnetic field.
Funding
The research leading to these results has received funding from the
European Union Seventh Framework Programme FP7-2011 under
grant agreement no 284405. WASP-South is hosted by the South
African Astronomical Observatory, and Super-WASP-North by the
Isaac Newton Group and the Instituto de Astrofisica de Canarias;
we are grateful for their ongoing support and assistance. Funding
for WASP comes from consortium universities and from the
UK’s Science and Technology Facilities Council. This publication
makes use of VOSA, developed under the Spanish Virtual Observatory
project supported from the Spanish MICINN through grant
AyA2008-02156.
History
Citation
Monthly Notices of the Royal Astronomical Society, 2016, 465 (4), pp. 3889-3901
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Physics and Astronomy
Version
VoR (Version of Record)
Published in
Monthly Notices of the Royal Astronomical Society
Publisher
Oxford University Press (OUP), Royal Astronomical Society