Amplitude analysis of B+ψ(2S)K+π+πB^+ \to \psi(2S) K^+ \pi^+ \pi^- decays

Abstract

International audienceThe first full amplitude analysis of B+ψ(2S)K+π+πB^+ \to \psi(2S) K^+ \pi^+ \pi^- decays is performed using proton-proton collision data corresponding to an integrated luminosity of 9fb19\,\text{fb}^{-1} recorded with the LHCb detector. The rich K+π+πK^+ \pi^+ \pi^- spectrum is studied and the branching fractions of the resonant substructure associated with the prominent K1(1270)+K_1(1270)^+ contribution are measured. The data cannot be described by conventional strange and charmonium resonances only. An amplitude model with 53 components is developed comprising 11 hidden-charm exotic hadrons. New production mechanisms for charged charmonium-like states are observed. Significant resonant activity with spin-parity JP=1+J^P = 1^+ in the ψ(2S)π+\psi(2S) \pi^+ system is confirmed and a multi-pole structure is demonstrated. The spectral decomposition of the ψ(2S)π+π\psi(2S) \pi^+ \pi^- invariant-mass structure, dominated by X0ψ(2S)ρ(770)0X^0 \to \psi(2S) \rho(770)^0 decays, broadly resembles the J/ψϕJ/\psi \phi spectrum observed in B+J/ψϕK+B^+ \to J/\psi \phi K^+ decays. Exotic ψ(2S)K+π\psi(2S) K^+ \pi^- resonances are observed for the first time

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