Mirror dark matter interpretations of the DAMA, CoGeNT and CRESST-II data

Abstract

The CRESST-II collaboration have announced evidence for the direct detection of dark matter in 730 kg-days exposure of a CaWO4 target. We examine these new results, along with DAMA and CoGeNT data, in the context of the mirror dark matter framework. We show that all three experiments can be simultaneously explained via kinetic mixing induced elastic scattering of a mirror metal component off target nuclei. This metal component can be as heavy as Fe' if the galactic rotational velocity is relatively low: vrot < 220 km/s. This explanation is consistent with the constraints from the other experiments, such as CDMS/Ge, CDMS/Si and XENON100 when modest 20-30% uncertainties in energy scale are considered.