Observational evidence of galaxy assembly bias

Abstract

We analyze the spectra of 300,000 luminous red galaxies (LRGs) with stellar masses M* 1011 M from the SDSS-III Baryon Oscillation Spectroscopic Survey (BOSS). By studying their star-formation histories, we find two main evolutionary paths converging into the same quiescent galaxy population at z0.55. Fast-growing LRGs assemble 80\% of their stellar mass very early on (z5), whereas slow-growing LRGs reach the same evolutionary state at z1.5. Further investigation reveals that their clustering properties on scales of 1-30 Mpc are, at a high level of significance, also different. Fast-growing LRGs are found to be more strongly clustered and reside in overall denser large-scale structure environments than slow-growing systems, for a given stellar-mass threshold. Our results imply a dependence of clustering on stellar-mass assembly history (naturally connected to the mass-formation history of the corresponding halos) for a homogeneous population of similar mass and color, which constitutes a strong observational evidence of galaxy assembly bias.