Hadronic rescattering to solve helicity puzzle in B+ p p π+(K+) decays

Abstract

We explore the contribution of hadronic final state interactions (FSI) to propose a production mechanism and interpret the puzzle on helicity angle distributions in B+ p p π+ and B+ p p K+ decays. Experimental results indicate opposite helicity angle θp distributions in those two channels with the difference presenting a remarkable linear dependence on θp. We assume the production mechanism is driven by B+ xy\, m+ p p m+, where m =π or K, and xy represents favorable mesonic decay channels producing p p. We develop a model that includes three-body final state interaction between the p\,,~ p and π+ or K+ considering the dominance of elastic channels π+p and K+ p interactions below 2\,GeV/c2. Our three-body framework with FSI explains qualitatively the observed opposite behavior of the helicity distributions and the observed linearity.