Neutral pion momentum in hypertriton mesonic decay through a root-finding method
Abstract
A root-finding method is used to study two-body mesonic decay in the hypertriton. We validate this Newton--Raphson root-finding approach by applying it to the negative-pion decay channel (3ΛH → 3He + π-), for which the pion momentum and lambda binding energy were recently reported by MAMI A1 Collaboration as pπ- = 113.789 0.020stat. 0.112syst. MeV/c and BΛ = 0.523 0.013stat. 0.075syst. MeV, respectively. Using their reported Λ binding energy, the root-finding method and an exact kinematic formula both yield pπ- = 113.790 MeV/c, agreeing with each other. We then apply both the Newton--Raphson method and the exact formula to the neutral-pion decay channel (3ΛH → 3H + π0), for which the neutral pion momentum cannot be directly measured due to difficulties in experimental setup. Both methods agree, yielding a predicted neutral-pion momentum of pπ0 = 118.129 MeV/c. This validates the root-finding algorithm as a robust equivalent for predicting pion momenta that may be experimentally inaccessible in some cases. Furthermore, it establishes the method as a reliable tool for extension to three-body mesonic decays, for which the pion momentum is a continuum and the exact kinematic formula can no longer be applied. In addition, the pion momentum computed allows for its 4-momentum to be completely determined, a useful input for investigating its two-photon decay (π0 γγ) in the rest frame of the hypertriton.
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