3D Numerical Simulations of AGN Outflows in Clusters and Groups

We compute 3D hydrodynamic models of jet outflows from the central AGN that carry mass as well as energy to the hot gas in galaxy clusters and groups. These flows have many attractive attributes for solving the cooling flow problem: why the hot gas temperature and density profiles resemble cooling flows but show no spectral evidence of cooling to low temperatures. Subrelativistic jets, described by a few parameters, are assumed to be activated when gas flows toward or cools near a central SMBH. As the jets proceed out from the center, they entrain more and more ambient gas. Using approximate models for a rich cluster (A1795), a poor cluster (2A 0336+096) and a group (NGC 5044), we show that mass‐carrying jets with intermediate mechanical efficiencies (∼10−3) can reduce for many Gyr the global cooling rate to or below the low values implied by X‐ray spectra, while maintaining T and ρ profiles similar to those observed, at least in clusters. Groups are much more sensitive to AGN heating and present extreme ...