Probing the Physics of Mechanical AGN Feedback with Radial Elongations of X-ray Cavities

TL;DR

This study investigates the shapes of X-ray cavities created by AGN feedback to understand the energy content and jet composition, revealing correlations between cavity elongation, jet energy dominance, and projection effects.

Contribution

It introduces an analytical relation between intrinsic cavity elongation and observed shape, linking cavity morphology to jet energy composition and providing insights into AGN feedback mechanisms.

Findings

Cavity elongation decreases as they rise buoyantly.

Projection effects make cavities appear more circular.

Strong kinetic-energy jets produce type-II cavities.

Abstract

Mechanical active galactic nucleus (AGN) feedback plays a key role in massive galaxies, galaxy groups and clusters. However, the energy content of AGN jets that mediate this feedback process is still far from clear. Here we present a preliminary study of radial elongations $\tau$ of a large sample of X-ray cavities, which are apparently produced by mechanical AGN feedback. All the cavities in our sample are elongated along the angular (type-I) or jet directions (type-II), or nearly circular (type-III). The observed value of $\tau$ roughly decreases as the cavities rise buoyantly, confirming the same trend found in hydrodynamic simulations. For young cavities, both type-I and II cavities exist, and the latter dominates. Assuming a spheroidal cavity shape, we derive an analytical relation between the intrinsic radial elongation $\bar{\tau}$ and the inclination-angle-dependent value of $\tau$, showing that projection effect makes cavities appear more circular, but does not change type-I cavities into type-II ones, or vice versa. We summarize radial elongations of young cavities in simulations, finding that $\bar{\tau}$ increases with the kinetic fraction of AGN jets. While mild jets always produce type-II cavities, thermal-energy-dominated strong jets produce type-I cavities, and kinetic-energy-dominated strong jets produce type-II cavities. Our results suggest that some AGN jets are strong and dominated by thermal energy (or cosmic rays). However, these jets do not dominate in AGN feedback. If most jets are dominated by non-kinetic energies, they should be mainly mild jets. If most jets are strong, they must be mainly dominated by the kinetic energy.