http://arxiv.org/abs/1509.00487

The CLASH X-ray selected sample of 20 galaxy clusters contains ten brightest cluster galaxies (BCGs) that exhibit significant ($>$5 $\sigma$) extinction-corrected star formation rates (SFRs). Star formation activity is inferred from photometric estimates of UV and H$\alpha$+[NII] emission in knots and filaments detected in CLASH HST observations. These measurements are supplemented with [OII], [OIII], and H$\beta$ fluxes measured from spectra obtained with the SOAR telescope. Reddening-corrected UV-derived SFRs in these BCGs are broadly consistent with H$\alpha$-derived SFRs. Five BCGs exhibit SFRs $>$10 M$_{\odot}$ yr$^{-1}$ and an additional two have a SFR $>$ 100 M$_{\odot}$ yr$^{-1}$. We confirm that photoionization from ongoing star formation powers the line emission nebulae in these BCGs, although in many BCGs there is also evidence for a LINER-like contribution.
Using Chandra X-ray measurements, we infer that the star formation occurs exclusively in low-entropy cluster cores and exhibits a correlation with properties related to the cooling. We also perform an in-depth study of the starburst history of the BCG in the cluster RXJ1532.9+3021, and compare starburst ages to the ages of X-ray cavities produced by AGN activity. We create 2D maps of the BCG stellar properties which reveal evidence for an ongoing burst occurring in elongated filaments, generally on relatively long ($\sim$ 0.5-1.0 Gyr) timescales, although some filaments are consistent with much younger ($\lesssim$ 100 Myr) burst timescales. The longer timescales for star formation exceed the timescale AGN activity, while the younger filaments may be correlated with recent activity from the AGN. The relationship between BCG SFRs and the surrounding ICM gas properties provide new support for the process of feedback-regulated cooling in galaxy clusters and is consistent with recent theoretical predictions.

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K. Fogarty, M. Postman, T. Connor, et. al.
Thu, 3 Sep 15
33/58

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