Searching for large-scale structures around high-redshift radio galaxies with Herschel

Abstract

This paper presents the first results of a far-infrared search for protocluster-associated galaxy overdensities using the SPIRE instrument on-board the Herschel Space Observatory. Large (400 arcmin2) fields surrounding 26 powerful high-redshift radio galaxies (2.0 < z < 4.1; L 500 MHz > 1028.5 WHz-1) are mapped at 250, 350 and 500 to give a unique wide-field sample. On average the fields have a higher than expected, compared to blank fields, surface density of 500 sources within 6 comoving Mpc of the radio galaxy. The analysis is then restricted to potential protocluster members only, which are identified using a far-infrared colour selection; this reveals significant overdensities of galaxies in 2 fields, neither of which are previously known protoclusters. The probability of finding 2 overdensities of this size by chance, given the number of fields observed is 5 × 10-4. Overdensities here exist around radio galaxies with L 500 MHz 1029 WHz-1 and z < 3. The radial extent of the average far-infrared overdensity is found to be 6 comoving Mpc. Comparison with predictions from numerical simulations shows that the overdensities are consistent with having masses > 1014Msolar. However, the large uncertainty in the redshift estimation means that it is possible that these far-infrared overdensities consist of several structures across the redshift range searched.