The Galaxy Halo Connection in Modified Gravity Cosmologies: Environment Dependence of Galaxy Luminosity function

Abstract

We investigate the dependence of the galaxy-halo connection and galaxy density field in modified gravity models using the N-body simulations for f(R) and nDGP models at z=0. Because of the screening mechanisms employed by these models, chameleon and Vainshtein, halos are clustered differently in the non-linear regime of structure formation. We quantify their deviations in the galaxy density field from the standard model under different environments. We populate galaxies in halos via the (Sub)Halo Abundance Matching. Our main results are: 1) The galaxy-halo connection strongly depends on the gravity model; a maximum variation of 40\% is observed between Halo Occupational Distribution (HOD) parameters; 2) f(R) gravity models predict an excess of galaxies in low density environments of 10\% but predict a deficit of 10\% at high density environments for |fR0| = 10-4 and 10-6 while |fR0| = 10-5 predicts more high density structures; nDGP models are consistent with ; 3) Different gravity models predict different dependences of the galaxy luminosity function (GLF) with the environment, especially in void-like regions we find differences around 10\% for the f(R) models while nDPG models remain closer to for low-luminosity galaxies but there is a deficit of 11\% for high-luminosity galaxies in all environments. We conclude that the dependence of the GLF with environment might provide a test to distinguish between gravity models and their screening mechanisms from the . We provide HOD parameters for the gravity models analyzed in this paper.