Galaxy-halo size relation from Sloan Digital Sky Survey Data Release 7 and the ELUCID simulation

Abstract

Based on galaxies in the Sloan Digital Sky Survey Data Release 7 (SDSS DR7) and dark matter haloes in the dark matter only, cosmological and constrained ELUCID simulation, we investigate the relation between the observed radii of central galaxies with stellar mass 108 h-2 M and the virial radii of their host dark matter haloes with virial mass 1010.5 h-1 M, and the dependence of galaxy-halo size relation on the halo spin and concentration. Galaxies in observation are matched to dark matter (sub-)haloes in the ELUCID simulation using a novel neighborhood subhalo abundance matching method. For galaxy 2D half-light radii R50, we find that early- and late-type galaxies have the same power-law index 0.55 with R50 R vir0.55, although early-type galaxies have smaller 2D half-light radii than late-type galaxies at fixed halo virial radii. When converting the 2D half-light radii R50 to 3D half-mass radii r1/2, both early- and late-type galaxies display similar galaxy-halo size relations with r1/2 = 0.55 (R vir/210 h-1 kpc) + 0.39. We find that the galaxy-halo size ratio r1/2/ R vir decreases with increasing halo mass. At fixed halo mass, there is no significant dependence of galaxy-halo size ratio on the halo spin or concentration.