Origins of the Isospin Violation of Dark Matter Interactions

Abstract

Light dark matter (DM) with a large DM-nucleon spin-independent cross section and furthermore proper isospin violation (ISV) fn/fp≈-0.7 may provide a way to understand the confusing DM direct detection results. Combing with the stringent astrophysical and collider constraints, we systematically investigate the origin of ISV first via general operator analyses and further via specifying three kinds of (single) mediators: A light Z' from chiral U(1)X, an approximate spectator Higgs doublet (It can explain the W+jj anomaly simultaneously) and color triplets. In addition, although Z' from an exotic U(1)X mixing with U(1)Y generating fn=0, we can combine it with the conventional Higgs to achieve proper ISV. As a concrete example, we propose the U(1)X model where the U(1)X charged light sneutrino is the inelastic DM, which dominantly annihilates to light dark states such as Z' with sub-GeV mass. This model can address the recent GoGeNT annual modulation consistent with other DM direct detection results and free of exclusions.