17 MeV Atomki anomaly from short-distance structure of spacetime

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Abstract An anomaly observed recently in the $$^8 \hbox {Be}$$ 8Be nuclear transition by the Atomki collaboration hints at a weakly-coupled, light new gauge boson with a mass of about 17 MeV. In this paper, we propose that this new gauge boson comes from a short-distance structure of the spacetime, rather than from an extension of the Standard Model through adding an extra $$\mathrm {U}(1)$$ U(1) gauge symmetry. The dominant contribution to the relevant matrix element of the $$^8 \hbox {Be}$$ 8Be nuclear transition is given by the axial couplings. In order to account for the $$^8 \hbox {Be}$$ 8Be anomaly and satisfy the current experimental constraints, the coupling constant of the new gauge boson should be about $${\mathcal {O}}(10^{-4}{-}10^{-5})$$ O(10-4-10-5) . Our theoretical model allows understanding the origin of the smallness of the coupling constant, which is still missing or being incompletely understood in the models at which the new gauge boson has the axial couplings.