Elucidating the impact of massive neutrinos on halo assembly bias

Abstract

Massive neutrinos have non-negligible impact on the formation of large-scale structures. We investigate the impact of massive neutrinos on the halo assembly bias effect, measured by the relative halo bias b as a function of the curvature of the initial density peak s, neutrino excess ε, or halo concentration c, using a large suite of M=0.0 eV and 0.4 eV simulations with the same initial conditions. By tracing dark matter haloes back to their initial density peaks, we construct a catalogue of halo twins that collapsed from the same peaks but evolved separately with and without massive neutrinos, thereby isolating any effect of neutrinos on halo formation. We detect a 2\% weakening of the halo assembly bias as measured by b(ε) in the presence of massive neutrinos. As there exists a significant correlation between s and ε (rcc=0.319), the impact of neutrinos persists at a reduced level~(0.1\%) in the halo assembly bias measured by b(s). However, we do not detect any neutrino-induced impact on b(c), consistent with earlier studies and the lack of correlation between c and ε (rcc=0.087). We also discover an analogous assembly bias effect for the neutrino haloes, whose concentrations are anti-correlated with the large-scale clustering of neutrinos.

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