Testing distance duality with CMB anisotropies

Abstract

We constrain deviations of the form T (1+z)1+ε from the standard redshift-temperature relation, corresponding to modifying distance duality as DL=(1+z)2(1+ε) DA. We consider a consistent model, in which both the background and perturbation equations are changed. For this purpose, we introduce a species of dark radiation particles to which photon energy density is transferred, and assume ε0. The Planck 2015 release high multipole temperature plus low multipole data give the limit ε<4.5× 10-3 at 95% C.L. The main obstacle to improving this CMB-only result is strong degeneracy between ε and the physical matter densities ω b and ω c. A constraint on deuterium abundance improves the limit to ε<1.8× 10-3. Adding the Planck high-multipole CMB polarisation and BAO data leads to a small improvement; with this maximal dataset we obtain ε<1.3× 10-3. This dataset constrains the present dark radiation energy density to at most 12% of the total photon plus dark radiation density. Finally, we discuss the degeneracy between dark radiation and the effective number of relativistic species N eff, and consider the impact of dark radiation perturbations and allowing ε<0 on the results.