Dark Matter implications from the LZ, PandaX-4T and XENONnT Data

Abstract

We investigate a possible dark matter origin of the high-energy nuclear-recoil-like events in data from liquid xenon time projection chamber experiments, including LZ, PandaX-4T, and XENONnT, which cannot be explained by standard elastic spin-independent WIMP scattering. Using our unified DIAMX framework, built on openly available data and likelihood models, we perform the first combined profile-likelihood fits to multiple WIMP-search datasets with a total exposure of approximately 8.8 tonne × year. We consider two broad classes of dark matter-nucleon interactions, involving either velocity-dependent cross sections or inelastic (endo- and exothermic) scattering, which can reproduce the observed high-energy recoil spectrum, reaching local significances up to 3.5σ. We further quantify the impact of 124Xe double electron capture (DEC) backgrounds, finding that variations in the poorly known DEC charge yields can shift the inferred significances from a null-like result to 3.5σ. We further note that extending the same analysis to data from all three experiments with recoil energies up to 300~keV, when available, will provide a powerful test of the dark matter interpretation, since the 124Xe DEC background is expected to be negligible in this high-energy range.

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