New constraints on time-dependent variations of fundamental constants using Planck data

Abstract

Observations of the CMB today allow us to answer detailed questions about the properties of our Universe, targeting both standard and non-standard physics. In this paper, we study the effects of varying fundamental constants (i.e., the fine-structure constant, α EM, and electron rest mass, m e) around last scattering using the recombination codes CosmoRec and Recfast++. We approach the problem in a pedagogical manner, illustrating the importance of various effects on the free electron fraction, Thomson visibility function and CMB power spectra, highlighting various degeneracies. We demonstrate that the simpler Recfast++ treatment (based on a three-level atom approach) can be used to accurately represent the full computation of CosmoRec. We also include explicit time-dependent variations using a phenomenological power-law description. We reproduce previous Planck 2013 results in our analysis. Assuming constant variations relative to the standard values, we find the improved constraints α EM/α EM,0=0.9993 0.0025 (CMB only) and m e/m e,0= 1.0039 0.0074 (including BAO) using Planck 2015 data. For a redshift-dependent variation, α EM(z)=α EM(z0)\,[(1+z)/1100]p with α EM(z0)α EM,0 at z0=1100, we obtain p=0.0008 0.0025. Allowing simultaneous variations of α EM(z0) and p yields α EM(z0)/α EM,0 = 0.9998 0.0036 and p = 0.0006 0.0036. We also discuss combined limits on α EM and m e. Our analysis shows that existing data is not only sensitive to the value of the fundamental constants around recombination but also its first time derivative. This suggests that a wider class of varying fundamental constant models can be probed using the CMB.