The Chandra COSMOS legacy survey: Energy Spectrum of the Cosmic X-ray Background and constraints on undetected populations

Abstract

Using Chandra observations in the 2.15 deg2 COSMOS legacy field, we present one of the most accurate measurements of the Cosmic X-ray Background (CXB) spectrum to date in the [0.3-7] keV energy band. The CXB has three distinct components: contributions from two Galactic collisional thermal plasmas at kT0.27 and 0.07 keV and an extragalactic power-law with photon spectral index =1.450.02. The 1 keV normalization of the extragalactic component is 10.910.16 keV cm-2 s-1 sr-1 keV-1. Removing all X-ray detected sources, the remaining unresolved CXB is best-fit by a power-law with normalization 4.180.26 keV cm-2 s-1 sr-1 keV-1 and photon spectral index =1.570.10. Removing faint galaxies down to iAB27-28 leaves a hard spectrum with 1.25 and a 1 keV normalization of 1.37 keV cm-2 s-1 sr-1 keV-1. This means that 91\% of the observed CXB is resolved into detected X-ray sources and undetected galaxies. Unresolved sources that contribute 8-9\% of the total CXB show a marginal evidence of being harder and possibly more obscured than resolved sources. Another 1\% of the CXB can be attributed to still undetected star forming galaxies and absorbed AGN. According to these limits, we investigate a scenario where early black holes totally account for non source CXB fraction and constrain some of their properties. In order to not exceed the remaining CXB and the z6 accreted mass density, such a population of black holes must grow in Compton-thick envelopes with NH>1.6×1025 cm-2 and form in extremely low metallicity environments (Z)10-3.