Quantum Monte Carlo calculations of dark matter scattering off light nuclei

Abstract

We compute the matrix elements for elastic scattering of dark matter (DM) particles off light nuclei (2H, 3H, 3He, 4He and 6Li) using quantum Monte Carlo methods. We focus on scalar-mediated DM-nucleus interactions and use scalar currents obtained to next-to-leading order in chiral effective theory. The nuclear ground states are obtained from a phenomenological nuclear Hamiltonian that includes the Argonne v18 two-body interaction and the three-body Urbana IX interaction. Within this approach, we study the impact of one- and two-body currents and discuss the size of nuclear uncertainties, including for the first time two-body effects in A=4 and A=6 systems. Our results provide the nuclear structure input needed to assess the sensitivity of future experimental searches of (light) dark matter using light nuclei, such as 3He and 4He.