GOODS-Herschel: identification of the individual galaxies responsible for the 80-290μm cosmic infrared background

Abstract

We propose a new method of pushing Herschel to its faintest detection limits using universal trends in the redshift evolution of the far infrared over 24μm colours in the well-sampled GOODS-North field. An extension to other fields with less multi-wavelength information is presented. This method is applied here to raise the contribution of individually detected Herschel sources to the cosmic infrared background (CIRB) by a factor 5 close to its peak at 250μm and more than 3 in the 350μm and 500μm bands. We produce realistic mock Herschel images of the deep PACS and SPIRE images of the GOODS-North field from the GOODS-Herschel Key Program and use them to quantify the confusion noise at the position of individual sources, i.e., estimate a "local confusion noise". Two methods are used to identify sources with reliable photometric accuracy extracted using 24μm prior positions. The clean index (CI), previously defined but validated here with simulations, which measures the presence of bright 24μm neighbours and the photometric accuracy index (PAI) directly extracted from the mock Herschel images. After correction for completeness, thanks to our mock Herschel images, individually detected sources make up as much as 54% and 60% of the CIRB in the PACS bands down to 1.1 mJy at 100μm and 2.2 mJy at 160μm and 55, 33, and 13% of the CIRB in the SPIRE bands down to 2.5, 5, and 9 mJy at 250μm, 350μm, and 500μm, respectively. The latter depths improve the detection limits of Herschel by factors of 5 at 250μm, and 3 at 350μm and 500μm as compared to the standard confusion limit. Interestingly, the dominant contributors to the CIRB in all Herschel bands appear to be distant siblings of the Milky Way (z0.96 for λ<300μm) with a stellar mass of M9×1010M.