The MeerKAT Galaxy Clusters Legacy Survey: star formation in massive clusters at 0.15 < z < 0.35

Abstract

We investigate dust-unbiased star formation rates (SFR) as a function of the environment in 20 massive clusters (M200>4×1014 M) between 0.15<z<0.35 using radio luminosities (L 1.4GHz) from the recently released MeerKAT Galaxy Cluster Legacy Survey catalogue. We use optical data from the Dark Energy Camera Legacy Survey to estimate photo-zs and assign cluster membership. We observe a steady decline in the fraction (f SF) of star-forming galaxies from 2R200 to the cluster centres in our full cluster sample, but notice a significant difference in f SF gradients between clusters hosting large-scale extended radio emission in the form of haloes and relics (associated with ongoing merger activity) and non-radio-halo/relic hosting clusters. For star-forming galaxies within R200, the f SF in clusters hosting radio haloes and relics (0.1480.016) is ≈23\% higher than in non-radio-halo/relic hosting clusters (0.1200.011). We observe a 3σ difference between the total SFR normalised by cluster mass for non-radio-halo/relic hosting clusters (21.51.9 Myr-1/1014M) and for clusters with radio haloes and relics (26.11.4 Myr-1/1014M). There is a ≈4× decline in the mass normalised total SFR of clusters for galaxies with SFR above the luminous infrared galaxies (LIRGs) SFR limit at our redshift slice, corresponding to 2 Gyr in look-back time. This is consistent with the rapid decline in SF activity with decreasing redshift amongst cluster LIRGs seen by previous studies using infrared-derived SFR.

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