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Search for the X17 particle in $^{7}\mathrm{Li}(\mathrm{p},\mathrm{e}^+ \mathrm{e}^{-}) ^{8}\mathrm{Be}$ processes with the MEG II detector

Published 12 Nov 2024 in nucl-ex and hep-ex | (2411.07994v1)

Abstract: The observation of a resonance structure in the opening angle of the electron-positron pairs in the ${7}$Li(p,\ee) ${8}$Be reaction was claimed and interpreted as the production and subsequent decay of a hypothetical particle (X17). Similar excesses, consistent with this particle, were later observed in processes involving ${4}$He and ${12}$C nuclei with the same experimental technique. The MEG II apparatus at PSI, designed to search for the $\mu+ \rightarrow \mathrm{e}+ \gamma$ decay, can be exploited to investigate the existence of this particle and study its nature. Protons from a Cockroft-Walton accelerator, with an energy up to 1.1 MeV, were delivered on a dedicated Li-based target. The $\gamma$ and the e${+}$e${-}$ pair emerging from the $8\mathrm{Be}*$ transitions were studied with calorimeters and a spectrometer, featuring a broader angular acceptance than previous experiments. We present in this paper the analysis of a four-week data-taking in 2023 with a beam energy of 1080 keV, resulting in the excitation of two different resonances with Q-value \SI{17.6}{\mega\electronvolt} and \SI{18.1}{\mega\electronvolt}. No significant signal was found, and limits at \SI{90}{\percent} C.L. on the branching ratios (relative to the $\gamma$ emission) of the two resonances to X17 were set, $R_{17.6} < 1.8 \times 10{-6} $ and $R_{18.1} < 1.2 \times 10{-5} $.

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