On the validity of the continuity equation in a modified gravity framework with CMB, DES 3x2pt and tomographic ISW data

Abstract

In this work we propose a phenomenological modification to the continuity equation at the linear perturbation level and test it using combinations of the CMB temperature, polarization and lensing potential angular spectrum, the ISW-galaxy cross power spectrum and the 3×2pt lensing and galaxy clustering from DES survey. We investigate two parametrisations of this modification, both proportional to a new parameter Ac, which is assumed to be either constant in time, or proportional to the scale factor a, in order to be more relevant at late times. We find DES and ISW data to be consistent with the standard continuity equation when Ac is constant, but 2--3σ hints of a non-zero modification appear when Planck data is included. The model Ac a results in stronger tensions. We also test the effects of including the common extra parameters μ and η that modify the Poisson equation and Weyl potential. Although Ac, μ and η are correlated, we still find non-zero Ac when Planck data is included or without Planck if Ac a and only either η or μ are allowed to vary. We conclude that violations of the continuity equation should be considered with care when testing additional deviations from general relativity.

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