A Robust Determination of Antinuclei Production from Dark Matter via Weakly Decaying Beauty Hadrons

Abstract

Recently, the Alpha Magnetic Spectrometer (AMS-02) Collaboration presented tentative evidence for the detection of cosmic antihelion-3 (3 He) events, alongside a comparable number of antideuterons ( D). If confirmed, these observations could revolutionize our understanding of cosmic-ray production and propagation and/or serve as compelling indirect evidence for dark matter. Given that the detection of cosmic D is already at the limit of AMS-02 sensitivity, explaining the observation of 3 He even within the standard coalescence framework poses a significant challenge. It has recently been shown that a previously overlooked mechanism within the Standard Model of particle physics-namely, the production of antihelion via the displaced-vertex decay of b0 baryons-could substantially enhance the 3 He flux arising from dark matter-induced processes. In light of these challenges, we present a tuning of Pythia that is consistent with LEP data on the fragmentation function of b quarks into b-hadrons-a critical factor for determining the b0 multiplicity-and with ALICE and ALEPH data for the D and 3 He spectra, which we employ to determine our coalescence model. Our refined Pythia tuning, in conjunction with our coalescence model, results in a predicted branching ratio for the production of 3 He from b0 decays that is consistent with the recent upper limit measured by LHCb. Furthermore, our prediction indicates that the contribution of D and 3 He from beauty-hadron decays is negligible relative to the direct production from hadronization.

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