Episodic accretion: the interplay of infall and disc instabilities

Episodic accretion: the interplay of infall and disc instabilities

Authors:

Kuffmeier et al

Abstract:
Using zoom-simulations carried out with the adaptive mesh-refinement code RAMSES with a dynamic range of up to 227≈1.34×108 we investigate the accretion profiles around six stars embedded in different environments inside a (40 pc)3 giant molecular cloud, the role of mass infall and disc instabilities on the accretion profile, and thus on the luminosity of the forming protostar. Our results show that the environment in which the protostar is embedded determines the overall accretion profile of the protostar. Infall onto the circumstellar disc may trigger gravitational disc instabilities in the disc at distances of around ~10 to ~50 AU leading to rapid transport of angular momentum and strong accretion bursts. These bursts typically last for about ~10 to a ~100 years, consistent with typical orbital times at the location of the instability, and enhance the luminosity of the protostar. Calculations with the stellar evolution code \mesa\ show that the accretion bursts induce significant changes in the protostellar properties, such as the stellar temperature and radius. We apply the obtained protostellar properties to produce synthetic observables with RadMC and predict that accretion bursts lead to observable enhancements around 20 to 200 μm in the spectral energy distribution of Class 0 type young stellar objects.