Litcius/Paper detail

<i>Ab Initio</i> Structure Factors for Spin-Dependent Dark Matter Direct Detection

B. S. Hu, J. Padua-Argüelles, S. Leutheusser, T. Miyagi, S. R. Stroberg, J. D. Holt

2022Physical Review Letters24 citationsDOIOpen Access PDF

Abstract

We present converged ab initio calculations of structure factors for elastic spin-dependent WIMP scattering off all nuclei used in dark matter direct-detection searches: ^{19}F, ^{23}Na, ^{27}Al, ^{29}Si, ^{73}Ge, ^{127}I, and ^{129,131}Xe. From a set of established two- and three-nucleon interactions derived within chiral effective field theory, we construct consistent WIMP-nucleon currents at the one-body level, including effects from axial-vector two-body currents. We then apply the in-medium similarity renormalization group to construct effective valence-space Hamiltonians and consistently transformed operators of nuclear responses. Combining the recent advances of natural orbitals with three-nucleon forces expressed in large spaces, we obtain basis-space converged structure factors even in heavy nuclei. Generally results are consistent with previous calculations but large uncertainties in ^{127}I highlight the need for further study.

Topics & Concepts

PhysicsRenormalizationWIMPScatteringDark matterField (mathematics)Nuclear structureAb initioStatistical physicsElastic scatteringAtomic orbitalRenormalization groupEffective field theoryBootstrap modelTheoretical physicsConstruct (python library)Set (abstract data type)Similarity (geometry)Nuclear matterDark Matter and Cosmic PhenomenaAtomic and Subatomic Physics ResearchChemical and Physical Properties of Materials