Characterizing Intra-cluster light at $z\sim0.5$ in the Hubble Frontier Fields

Takahiro Morishita, Louis E. Abramson, Tommaso Treu, Kasper B. Schmidt, Benedetta Vulcani, Xin Wang

Published 2016-10-26Version 1

We investigate the intra-cluster light (ICL) in 4 Hubble Frontier Fields clusters at $0.3<z<0.6$. Our new method makes use of the unprecedented depth of Hubble Space Telescope imaging data to probe very diffuse light ($\mu_{F160W}\sim29.5$ mag arcsec$^{-2}$) out to clustro-centric radii $R_{\rm cl}\sim300$ kpc. The rest-frame $B-V$ color of the ICL is consistent with that of passive cluster galaxies of $\logm<9.5$, $\sim0.3$ mag bluer than more massive ones ($\logm>10.5$) and the cores of the brightest cluster galaxies, implying that the ICL and more-massive cluster galaxies are built-up via distinct processes. The stellar mass of the ICL ranges from $11.1< \logmicl <11.9$, implying an ICL stellar mass fraction of $\sim10$-$20\%$, about half of the local value. Hence, we posit that the amount of ICL has rapidly increased since $z\sim1$, and is still being constructed, at a rate of $\sim200\, \Msun\, {\rm yr^{-1}}$ at $z\sim0.5$ by cluster specific mechanisms such as galaxy interactions and the stripping of low-mass galaxies.