Bounds on neutrino-scalar nonstandard interactions from big bang nucleosynthesis

Abstract

Coherent forward scattering processes by neutrino-scalar nonstandard interactions (SNSI) induce an effective neutrino mass. In the Early Universe, a large neutrino effective mass restricts the production of neutrinos. The SNSI effect is modulated by two effective couplings, these account for the coupling between neutrinos and electrons/positrons, G eff, and the neutrino self-interaction, G S. These parameters are directly related to the effective number of relativistic species and non-zero values imply a smaller than expected N eff. We employ big bang nucleosynthesis to constraint the SNSI effect. We find that G eff < 1.2 MeV-2 and G S < 2.0 × 107 MeV-2 at 68\% CL. For a scalar mass in the range 10-15 eV mφ 10-5 eV, our neutrino-scalar coupling constraint is more restrictive than any previous result.