Survey of nuclear pasta in the intermediate-density regime: Structure functions for neutrino scattering

Abstract

Background: Nuclear pasta matter, emerging due to the competition between the long-range Coulomb force and the short-range strong force, is believed to be present in astrophysical scenarios, such as neutron stars and core-collapse supernovae. Its structure can have a high impact, e.g., on neutrino transport or the tidal deformability of neutron stars.Purpose: We investigate the impact of nuclear pasta on neutrino interactions and compare the results to uniform matter.Method: We calculate the elastic and inelastic static structure factors for nuclear pasta matter, using density functional theory (DFT), which contain the main nuclear input for neutrino scattering.Results: Each pasta structure leaves a unique imprint in the elastic structure factor and it is largely enhanced. The inelastic structure factors are very similar for all configurations.Conclusion: Nuclear pasta has a noticeable impact on neutrino neutral-current scattering opacities. While for inelastic reactions the cross section is reduced, the elastic coherent scattering increases dramatically. The effect can be of importance for the cooling of neutron stars as well as for core-collapse supernova models.