On the exclusion of intra-cluster plasma from AGN-blown bubbles

TL;DR

This paper investigates how thermal material enters AGN-blown bubbles, considering magnetic fields, diffusion, and reconnection, and concludes entrainment and magnetic reconnection are likely key processes.

Contribution

It analyzes the roles of entrainment, diffusion, and magnetic reconnection in explaining thermal content in AGN bubbles, highlighting the significance of these processes.

Findings

Entrainment into the outflow may explain thermal content.

High cross-field diffusion coefficients are needed, exceeding turbulent model predictions.

Magnetic reconnection could significantly transfer thermal material across boundaries.

Abstract

Simple arguments suggest that magnetic fields should be aligned tangentially to the surface of an AGN-blown bubble. If this is the case, charged particles from the fully ionised intra-cluster medium (ICM) will be prevented, ordinarily, from crossing the boundary by the Lorentz force. However, recent observations indicate that thermal material may occupy up to 50% of the volume of some bubbles. Given the effect of the Lorentz force, the thermal content must then be attributed to one, or a combination, of the following processes: i) the entrainment of thermal gas into the AGN outflow that inflated the bubble; ii) rapid diffusion across the magnetic field lines at the ICM/bubble interface; iii) magnetic reconnection events which transfer thermal material across the ICM/bubble boundary. Unless the AGN outflow behaves as a magnetic tower jet, entrainment may be significant and could explain the observed thermal content of bubbles. Alternatively, the cross-field diffusion coefficient required for the ICM to fill a typical bubble is roughly 10^16 cm^2 s^-1, which is anomalously high compared to predictions from turbulent diffusion models. Finally, the mass transfer rate due to magnetic reconnection is uncertain, but significant for plausible reconnection rates. We conclude that entrainment into the outflow and mass transfer due to magnetic reconnection events are probably the most significant sources of thermal content in AGN-blown bubbles.