Probing the small-scale primordial power spectrum via relic neutrinos and acoustic reheating

Abstract

We show that the dissipation of small-scale perturbations through diffusion damping after neutrino decoupling lowers the present-day neutrino temperature compared to the expected value of 1.96\,K. This reduces the relic neutrino abundance by an amount controlled by the integral of the primordial curvature power spectrum Δ R2(k). We find that a relic neutrino detection by PTOLEMY can set limits Δ R2(k) O(0.1) on scales k 3 × 105\,Mpc-1, complementary to limits from Big Bang Nucleosynthesis, spectral distortions, pulsar timing arrays, and future dark ages 21-cm observations.