Testing consistency of b h2 in the Planck data

Abstract

We find that the cosmic microwave background temperature and polarization power spectra measurements from Planck constrain the parameter bh2 mostly through: A) the amplitude of Thomson scattering and B) a factor that ensures Thomson scattering does not violate momentum conservation of the baryon-photon fluid. This allows us to obtain two distinct but comparably strong constraints on b h2 from the Planck data alone. They are consistent, showing robustness of the Planck b h2 constraint. We can alternatively rephrase these constraints as A) the change of the Thomson scattering cross section since recombination is less than 2\% and B) momentum during recombination is conserved to better than 2\% by Thomson scattering. Decoupling the eight various ways in which b h2 affects the Planck data leads to H0 only slightly higher than in the standard analysis, (68.3 1.6)\,km/s/Mpc. The overall consistency of all b h2 constraints does not suggest any problem with the standard cosmological model.