: modified gravity with massive neutrinos as a testable alternative to

Abstract

We show that, in the presence of massive neutrinos, the Galileon gravity model provides a very good fit to the current CMB temperature, CMB lensing and BAO data. This model, which we dub Galileon, when assuming its stable attractor background solution, contains the same set of free parameters as CDM, although it leads to different expansion dynamics and nontrivial gravitational interactions. The data provide compelling evidence ( 6σ) for nonzero neutrino masses, with m 0.4\ eV at the 2σ level. Upcoming precision terrestrial measurements of the absolute neutrino mass scale therefore have the potential to test this model. We show that CMB lensing measurements at multipoles l 40 will be able to discriminate between the Galileon and CDM models. Unlike CDM, the Galileon model is consistent with local determinations of the Hubble parameter. The presence of massive neutrinos lowers the value of σ8 substantially, despite of the enhanced gravitational strength on large scales. Unlike CDM, the Galileon model predicts a negative ISW effect, which is difficult to reconcile with current observational limits.