The study on the structure of exotic states c 1(3872) via beauty-hadron decays in pp collisions at s=8\,TeV

Abstract

A dynamically constrained phase-space coalescence (DCPC) model was introduced to study the exotic state c 1(3872) yield for three possible structures: tetraquark state, nuclear-like state, and molecular state respectively, where the hadronic final states generated by the parton and hadron cascade model (PACIAE). The c 1(3872)/ (2S) cross-section ratio from beauty-hadron decays (non-prompt) based on the c 1(3872) or (2S) J/π+π- bound state in the decay chains as a function of charged-particle multiplicity and transverse momentum in pp collisions at s=8\,TeV are calculated. A tetraquark state scenario from PACIAE+DCPC model shows better agreement with the LHCb and ATLAS measurements for the non-prompt c 1(3872)/(2S) cross-section ratio distributions, indicating that the c 1(3872) is more likely to be a compact tetraquark state.