Mid-infrared Variability and Accretion in NGC 2264 Protostars
Abstract
Variable mass accretion is thought to be an important aspect of protostar formation. Mid-infrared wavelength observations trace variations in accretion luminosity and thus can probe mass accretion on sub-AU scales. We present results from the Spitzer YSOVAR campaign towards Class I protostars in NGC 2264. The precise (0.02 mag) medium-cadence light curves at 3.6 and 4.5 microns show that young star variability is ubiquitous, with a variety of morphologies and time scales. A structure function analysis shows the light curves, on average, have a power-law behavior up to 30 days. The trend continues to longer timescales (years) for protostars (Class I), in contrast with the smaller brightness changes displayed by T Tauri stars (Class II). The power-law behavior suggests a stochastic process, such as turbulent mass accretion, drives the variability.
- Publication:
-
Young Stars & Planets Near the Sun
- Pub Date:
- January 2016
- DOI:
- Bibcode:
- 2016IAUS..314..209T
- Keywords:
-
- stars:formation;
- stars:protostars;
- stars:variables: T Tauri