The XMM-Newton Needles in the Haystack Survey: the local X-ray luminosity function of 'normal' galaxies

Abstract

In this paper we estimate the local (z<0.22) X-ray luminosity function of `normal' galaxies derived from the XMM-Newton Needles in the Haystack Survey. This is an on-going project that aims to identify X-ray selected `normal' galaxies (i.e. non-AGN dominated) in the local Universe. We are using a total of 70 XMM-Newton fields covering an area of 11 sq. degrees which overlap with the Sloan Digital Sky Survey Data Release-2. `Normal' galaxies are selected on the basis of their resolved optical light profile, their low X-ray--to--optical flux ratio (log(f_x/f_o)<-2) and soft X-ray colours. We find a total of 28 candidate `normal' galaxies to the 0.5-8 keV band flux limit of ~2x10^{-15} cgs. Optical spectra are available for most sources in our sample (82 per cent). These provide additional evidence that our sources are bona-fide 'normal' galaxies with X-ray emission coming from diffuse hot gas emission and/or X-ray binaries rather than a supermassive black hole. Sixteen of our galaxies have narrow emission lines or a late-type Spectral Energy Distribution (SED) while the remaining 12 present only absorption lines or an early-type SED. Combining our XMM-Newton sample with 18 local (z<0.22) galaxies from the Chandra Deep Field North and South surveys, we construct the local X-ray luminosity function of `normal' galaxies. This can be represented with a Schechter form with a break at L* ~ 3x10^{41} cgs and a slope of ~1.78+/-0.12. Using this luminosity function and assuming pure luminosity evolution of the form (1+z)^{3.3} we estimate a contribution to the X-ray background from `normal' galaxies of 10-20 per cent (0.5-8 keV). Finally, we derive, for the first time, the luminosity functions for early and late type systems separately.