Simulated observations of sub-millimetre galaxies: the impact of single-dish resolution and field variance

Abstract

Recent observational evidence suggests that the coarse angular resolution (20" FWHM) of single-dish telescopes at sub-mm wavelengths has biased the observed galaxy number counts by blending together the sub-mm emission from multiple sub-mm galaxies (SMGs). We use lightcones computed from an updated implementation of the semi-analytic model to generate 50 mock sub-mm surveys of 0.5 deg2 at 850 μm, taking into account the effects of the finite single-dish beam in a more accurate way than has been done previously. We find that blending of SMGs does lead to an enhancement of source extracted number counts at bright fluxes (S850μm1 mJy). Typically, 3-6 galaxies contribute 90\% of the flux of an S850μm=5 mJy source and these blended galaxies are physically unassociated. We find that field-to-field variations are comparable to Poisson fluctuations for our S850μm>5 mJy SMG population, which has a median redshift z50=2.0, but are greater than Poisson for the S850μm>1 mJy population (z50=2.8). In a detailed comparison to a recent interferometric survey targeted at single-dish detected sources, we reproduce the difference between single-dish and interferometer number counts and find a median redshift (z50=2.5) in excellent agreement with the observed value (z50=2.5 0.2). We also present predictions for single-dish survey number counts at 450 and 1100 μm, which show good agreement with observational data.