Collisional interaction limits between dark matters and baryons in `cooling flow' clusters

Abstract

Presuming weak collisional interactions to exchange the kinetic energy between dark matter and baryonic matter in a galaxy cluster, we re-examine the effectiveness of this process in several `cooling flow' galaxy clusters using available X-ray observations and infer an upper limit on the heavy dark matter particle (DMP)-proton cross section σ xp. With a relative collisional velocity V-dependent power-law form of σ xp=σ0(V/103 km s-1)a where a≤ 0, our inferred upper limit is σ0/m x 2×10-25 cm2 GeV-1 with m x being the DMP mass. Based on a simple stability analysis of the thermal energy balance equation, we argue that the mechanism of DMP-baryon collisional interactions is unlikely to be a stable nongravitational heating source of intracluster medium (ICM) in inner core regions of `cooling flow' galaxy clusters.