Revealing the strength of three-nucleon interactions with the proposed Einstein Telescope
Henrik Rose, Nina Kunert, Tim Dietrich, P. T. H. Pang, R. J. E. Smith, Chris Van Den Broeck, Stefano Gandolfi, Ingo Tews
Abstract
Nuclear systems, ranging from atomic nuclei to dense matter probed in neutron stars, are governed by strong interactions. Three-nucleon forces have been found to be a crucial ingredient for the reliable description of these systems. Here, we explore how astrophysical data on neutron stars and their mergers from current and next-generation observatories will enable us to distinguish nuclear Hamiltonians. In particular, we investigate two different nuclear Hamiltonians that have been adjusted to reproduce two-nucleon scattering data and properties of light nuclei, but differ in the three-nucleon interactions among neutrons. We find that no significant constraints can be obtained from current data, but that the proposed Einstein Telescope could provide strong evidence to distinguish among these Hamiltonians.