The non-thermal secondary CMB anisotropies from a cosmic distribution of radio galaxy lobes

Abstract

Current and upcoming high angular resolution and multi-frequency experiments are well poised to explore the rich landscape of secondary CMB anisotropies. In this context, we compute for the first time, the power spectrum of CMB fluctuations from a cosmological distribution of evolving lobes of giant radio galaxies. We, also, explicitly take into account the non-thermal electron distribution, which has important implications for the inference of the CMB angular power spectrum. We calculate the mean global non-thermal y-distortion, . For observationally reasonable distribution of the jet luminosities in the range of 1045-1047 ergs-1, we find to be less than 10-5, and hence not violating the COBE limit as previously claimed. Using the unique spectral dependence of the non-thermal SZ, we show that a detection of can be within reach at the level of 5σ from a future PIXIE-like experiment provided we understand the foregrounds precisely. The total non-thermal SZ power spectrum, CNT, from the radio lobes peaks at 3000 with an amplitude 1\% of thermal SZ power spectrum from galaxy clusters. A a detection of the CNT, with a PIXIE-like sensitivity experiment, can lead to 5σ constraint on the mass dependence of the jet luminosity with the constraint becoming, at least, ten times better for the proposed more ambitious CMB-HD survey. This will, further, lead to the tightest constrain on the central black hole mass -to- host halo mass scaling relations.