The Metallicity of Diffuse Intrahalo Light

Abstract

We make predictions for the metallicity of diffuse stellar components in systems ranging from small spiral galaxies to rich galaxy clusters. We extend the formalism of Purcell et al. (2007), in which diffuse stellar mass is produced via galaxy disruption, and we convolve this result with the observed mass-metallicity relation for galaxies in order to analyze the chemical abundance of intrahalo light (IHL) in host halos with virial mass 1010.5 Msun < Mhost < 1015 Msun. We predict a steep rise of roughly two dex in IHL metallicity from the scales of small to large spiral galaxies. In terms of the total dynamical mass Mhost of the host systems under consideration, we predict diffuse light metallicities ranging from ZIHL < -2.5 for Mhost ~ 1011 Msun, to ZIHL ~ -1.0 for Mhost ~ 1012 Msun. In larger systems, we predict a gradual flattening of this trend with ZIHL ~ -0.4 for Mhost ~ 1013 Msun, increasing to ZIHL ~ 0.1 for Mhost ~ 1015 Msun. This behavior is coincident with a narrowing of the intrahalo metallicity distribution as host mass increases. The observable distinction in surface brightness between old, metal-poor IHL stars and more metal-rich, dynamically-younger tidal streams is of crucial importance when estimating the chemical abundance of an intrahalo population with multiple origins.