Temporally and Spatially Extended Star Formation in the Brightest Cluster Galaxy of MACS\,J0329.7-0211 at z=0.45: Implications for Stellar Growth

Abstract

Brightest cluster galaxies (BCGs), particularly those at the centers of cool-core clusters, can exhibit star formation over spatial extents of up to 100\,kpc at inferred rates of up to 100\,M\,yr-1. Is their star formation also extended over time, as might be expected if fuelled by cooling of the surrounding hot intracluster gas -- a residual cooling flow -- as demonstrated hitherto only for the BCG in the Perseus cluster? Here, to infer the formation history of relatively young stars in the BCG of MACS\,J0329.7-0211, we fit model single-stellar-populations to the spectral energy distributions (spanning near-UV to near-IR) measured along different sightlines towards its young stellar population. Employing a Markov Chain Monte Carlo method, we show that star formation in this BCG has persisted at a relatively constant rate of 2\,M\,yr-1 (factors of 10--40 below the rates previously inferred using simpler methods and/or ad hoc assumptions) over the past 400\,Myr, beyond which any star formation falls below the observational detection threshold. Such persistent star formation from a residual cooling flow can contribute up to 10\% of the original stellar mass of this BCG if its progenitor was among the most massive red nuggets known at z2 having masses of 1×1011\,M, but only a few percent of its overall growth in stellar mass to 8×1011\,M at z=0.45. Although constituting only a minor pathway for the stellar growth of this BCG, persistent star formation from a residual cooling flow can nevertheless contribute significantly to the enormous number of globular clusters found around BCGs in the local Universe.