Supernova Neutrinos as a Precise Probe of Nuclear Neutron Skin

Abstract

A precise and model-independent determination of the neutron distribution radius R n and thus the neutron skin thickness R skin of atomic nuclei is of fundamental importance in nuclear physics, particle physics and astrophysics but remains a big challenge in terrestrial labs. We argue that the nearby core-collapse supernova (CCSN) in our Galaxy may render a neutrino flux with unprecedentedly high luminosity, offering perfect opportunity to determine the R n and R skin through the coherent elastic neutrino-nucleus scattering (CE). We evaluate the potential of determining the R n of lead (Pb) via CE with the nearby CCSN neutrinos in the RES-NOVA project which is designed to hunt CCSN neutrinos using an array of archaeological Pb based cryogenic detectors. We find that an ultimate precision of 0.1 \% for the R n ( 0.006 fm for the R skin) of Pb can be achieved via RES-NOVA in the most optimistic case that the CCSN explosion were to occur at a distance of 1 kpc from the Earth.