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paper

$ν$Galileon: modified gravity with massive neutrinos as a testable alternative to $Λ$CDM

arXiv:1404.1365 · doi:10.1103/PhysRevD.90.023528

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 $ν \rm{Galileon}$, when assuming its stable attractor background solution, contains the same set of free parameters as $Λ\rm{CDM}$, although it leads to different expansion dynamics and nontrivial gravitational interactions. The data provide compelling evidence ($\gtrsim 6σ$) for nonzero neutrino masses, with $Σm_ν\gtrsim 0.4\ {\rm eV}$ 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 $l \lesssim 40$ will be able to discriminate between the $ν \rm{Galileon}$ and $Λ\rm{CDM}$ models. Unlike $Λ\rm{CDM}$, the $ν \rm{Galileon}$ model is consistent with local determinations of the Hubble parameter. The presence of massive neutrinos lowers the value of $σ_8$ substantially, despite of the enhanced gravitational strength on large scales. Unlike $Λ\rm{CDM}$, the $ν \rm{Galileon}$ model predicts a negative ISW effect, which is difficult to reconcile with current observational limits.

4 pages, 2 figures, 1 table. Version 3: matches published version