Abstract
The DAMA/LIBRA experiment shows $9.5 \sigma$ evidence for an annual modulation in the $(1-6)~ {\rm keV}$ energy range, strongly suggesting that the observed modulation has the dark matter origin. However, the conventional interpretation in terms of WIMP-nucleon interaction is excluded by other experiments. We propose an alternative source of modulation in the form of neutrons, which have been liberated from surrounding material. Our computations are based on the so-called Axion Quark Nugget (AQN) dark matter model, which was originally invented long ago to explain the similarity between the dark and visible cosmological matter densities, i.e. $ \Omega_{\rm dark} \sim \Omega_{\rm visible}$. In our proposal the annual modulation is shown to be generated in keV energy range which is consistent with DL observation in $(1-6)~ {\rm keV}$ range. This keV energy scale in our proposal is mostly determined by spectral properties of the neutrinos emitted by the AQN dark matter particles, while the absence of the modulation with energies above 6 keV is explained by a sharp cutoff in the neutrino's energy spectrum at $\sim 15$ MeV. This proposal can be directly tested by COSINE-100, ANAIS-112, CYGNO and other similar experiments. It can be also tested by studying the correlations between the signals from these experiments and the signatures from drastically different detectors designed for studies of the infrasonic or seismic events using such instruments as Distributed Acoustic Sensing (DAS).
Highlights
The DAMA/LIBRA (DL) experiment [1–4] claims the observation for an annual modulation in the (1–6) keV energy range at 9.5σ C.L
These cosmological puzzles could be resolved within the axion quark nugget (AQN) framework with the same set of physical parameters to be used in the present work to explain the annual modulation observed by DL, without fitting or modifications of any of them
This is because the source of the modulation in this framework has a truly genuine dark matter (DM) origin represented by AQNs. (2) DL has carried out comprehensive studies on the dependence of the annual modulation as a function of the energy interval
Summary
The DAMA/LIBRA (DL) experiment [1–4] claims the observation for an annual modulation in the (1–6) keV energy range at 9.5σ C.L. The AQN model may resolve other, naively unrelated astrophysical mysteries, which include, but are not limited to, the so-called “primordial lithium puzzle” [11], the so-called “Solar corona mystery” [12,13], the recent Experiment to Detect the Global Epoch of Reionization Signature (EDGES) observations [14], and unexpected annual modulation in x rays in the (2–6) keV energy band observed by the XMM-Newton observatory [15], among many others These cosmological puzzles could be resolved within the AQN framework with the same set of physical parameters to be used in the present work to explain the annual modulation observed by DL, without fitting or modifications of any of them. V C and V D, we suggest a few novel tests which could unambiguously support or rule out the proposal (1)
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