Mapping small‐scale temperature and abundance structures in the core of the Perseus cluster

We report further results from a 191‐ks Chandra observation of the core of the Perseus cluster, Abell 426. The emission‐weighted temperature and abundance structures are mapped in detail. There are temperature variations down to ∼1 kpc in the brightest regions. Globally, the strongest X‐ray surface brightness features appear to be caused by temperature changes. Density and temperature changes conspire to give approximate azimuthal balance in pressure showing that the gas is in hydrostatic equilibrium. Si, S, Ar, Ca, Fe and Ni abundance profiles rise inwards from about 100 kpc, peaking at about 30–40 kpc. Most of these abundances drop inwards of the peak, but Ne shows a central peak, all of which may be explained by resonance scattering. There is no evidence for a widespread additional cooler temperature component in the cluster with a temperature greater than a factor of 2 from the local temperature. There is, however, evidence for a widespread hard component which may be non‐thermal. The temperature and abundance of gas in the cluster are observed to be correlated in a manner similar to that found between clusters.