Affiliation:
1. Inter-University Centre for Astronomy & Astrophysics , Ganeshkhind, Post Bag 4, Pune 411007, India
Abstract
AbstractThe dark matter content of a gravitationally bound halo is known to be affected by the galaxy and gas it hosts. We characterize this response for haloes spanning over four orders of magnitude in mass in the hydrodynamical simulation suites IllustrisTNG and EAGLE. We present simple fitting functions in the spherically averaged quasi-adiabatic relaxation framework that accurately capture the dark matter response over the full range of halo mass and halo-centric distance we explore. We show that commonly employed schemes, which consider the relative change in radius rf/ri − 1 of a spherical dark matter shell to be a function of only the relative change in its mass Mi/Mf − 1, do not accurately describe the measured response of most haloes in IllustrisTNG and EAGLE. Rather, rf/ri additionally explicitly depends upon halo-centric distance rf/Rvir for haloes with virial radius Rvir, being very similar between IllustrisTNG and EAGLE and across halo mass. We also account for a previously unmodelled effect, likely driven by feedback-related outflows, in which shells having rf/ri ≃ 1 (i.e. no relaxation) have Mi/Mf significantly different from unity. Our results are immediately applicable to a number of semi-analytical tools for modelling galactic and large-scale structure. We also study the dependence of this response on several halo and galaxy properties beyond total mass, finding that it is primarily related to halo concentration and star formation rate. We discuss possible extensions of these results to build a deeper physical understanding of the small-scale connection between dark matter and baryons.
Publisher
Oxford University Press (OUP)
Subject
Space and Planetary Science,Astronomy and Astrophysics
Cited by
4 articles.
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