The size--mass and other structural parameter (n, μz, Rz) relations for local bulges/spheroids from multicomponent decompositions

Abstract

We analyse the bulge/spheroid size-(stellar mass), R e,Sph-M *,Sph, relation and spheroid structural parameters for 202 local (predominantly 110~ Mpc) galaxies spanning M* 3×109-1012~ M and 0.1 R e, Sph32~ kpc from multicomponent decomposition. The correlations between the spheroid S\'ersic index (n Sph), central surface brightness (μ 0, Sph), effective half-light radius (R e, Sph), absolute magnitude (M Sph) and stellar mass (M *,Sph) are explored. We also investigate the consequences of using different scale radii, Rz, Sph, encapsulating a different fraction (z, from 0 to 1) of the total luminosity. The correlation strengths for projected mass densities, z and z, vary significantly with the choice of z. Spheroid size (R z, Sph) and mass (M *,Sph) are strongly correlated for all light fractions z. We find: (R e,Sph/ kpc) = 0.88(M *,Sph/ M)-9.15 with a small scatter of rms = 0.24~ dex. This result is discussed relative to the curved size-mass relation for early-type galaxies due to their discs yielding larger galaxy radii at lower masses. Moreover, the slope of our spheroid size-mass relation is a factor of 3, steeper than reported bulge size-mass relations, and with bulge sizes at M *,sph 3×109~M which are 2 to 3 times smaller. Finally, we show that the local spheroids align well with quiescent galaxies at z1.25--2.25. In essence, local spheroids and high-z quiescent galaxies appear structurally similar, likely dictated by the virial theorem.