Evolution and feedback of AGN Jets of different Cosmic-ray Composition

TL;DR

This study uses 3D magnetohydrodynamic simulations to compare the evolution and feedback effects of cosmic-ray proton and electron dominated AGN jets, revealing similar dynamics despite cooling differences and implications for intracluster medium heating.

Contribution

It provides the first detailed simulation comparison of CRp and CRe dominated AGN jets, analyzing their evolution, feedback, and observational signatures.

Findings

CRe dominated bubbles quickly become thermally dominated within 30 Myr.

Both CRp and CRe bubbles effectively suppress cooling flows.

Their evolutionary paths differ on the cavity-power versus radio-luminosity plane.

Abstract

Jet feedback from active galactic nuclei (AGN) is one of the most promising mechanisms for suppressing cooling flows in cool-core clusters. However, the composition of AGN jets and bubbles remains uncertain; they could be thermally dominated, or dominated by cosmic-ray proton (CRp), cosmic-ray electron (CRe), or magnetic energy. In this work, we investigate the evolution and feedback effects of CRp and CRe dominated jets by conducting 3D magnetohydrodynamic simulations of AGN jet-inflated bubbles in the intracluster medium using the FLASH code. We present the evolution of their energies, dynamics and heating, and model their expected cavity-power versus radio-luminosity relation ($P_{\rm cav}-L_R$). We find that bubbles inflated by CRe dominated jets follow a very similar dynamical evolution to CRp dominated bubbles even though CRe within bubbles suffer significantly stronger synchrotron and inverse-Compton cooling. This is because, as CRe lose their energy, the jet-inflated bubbles quickly become thermally dominated within $\sim 30$ Myr. Their total energy stops decreasing with CR energy and evolves similarly to CRp dominated bubbles. The ability of CRe and CRp dominated bubbles to heat the intracluster medium is also comparable; the cold gas formed via local thermal instabilities is well suppressed in both cases. The CRp and CRe bubbles follow different evolutionary trajectories on the $P_{\rm cav}-L_R$ plane, but the values are broadly consistent with observed ranges for FRI sources. We also discuss observational techniques that have potential for constraining the composition of AGN jets and bubbles.