Properties of Satellite Galaxies in the SDSS Photometric Survey: Luminosities, Colors, and Projected Number Density Profiles

LARES, MARCELO; GARCÍA LAMBAS, D.; DOMINGUEZ, MARIANO

ASTRONOMICAL JOURNAL

IOP PUBLISHING LTD

Lugar: Bristol; Año: 2011 vol. 142 p. 13 - 26

0004-6256

We analyze photometric data in the Sloan Digital Sky Survey Data Release 7 (SDSS-DR7) to infer statistical properties of faint satellites associated with isolated bright galaxies (Mr < ?20.5) in the redshift range 0.03 < z < 0.1. The mean projected radial number density profile shows an excess of companions in the photometric sample around the primaries, with approximately a power-law shape that extends up to sime 700 kpc. Given this overdensity signal, a suitable background subtraction method is used to study the statistical properties of the population of bound satellites, down to magnitude Mr = ?14.5, in the projected radial distance range 100 < rp /kpc < 3langR virrang. The maximum projected distance corresponds to the range 470-660 kpc for the different samples. We have also considered a color cut consistent with the observed colors of spectroscopic satellites in nearby galaxies so that distant redshifted galaxies do not dominate the statistics. We have tested the implementation of this background subtraction procedure using a mock catalog derived from the Millennium simulation semianalytic galaxy catalog based on a Λ cold dark matter model. We find that the method is effective in reproducing the true projected radial satellite number density profile and luminosity distributions, providing confidence in the results derived from SDSS data. We find that the spatial extent of satellite systems is larger for bright, red primaries. Also, we find a larger spatial distribution of blue satellites. For the different samples analyzed, we derive the average number of satellites and their luminosity distributions down to Mr = ?14.5. The mean number of satellites depends very strongly on host luminosity. Bright primaries (Mr < ?21.5) host on average ~6 satellites with Mr < ?14.5. This number is reduced for primaries with lower luminosities (?21.5 < Mr < ?20.5) which have less than one satellite per host. We provide Schechter function fits to the luminosity distributions of satellite galaxies where the resulting faint-end slopes equal to 1.3 ± 0.2, consistent with the universal value. This shows that satellites of bright primaries lack an excess population of faint objects, in agreement with the results in the Milky Way and nearby galaxies.