Threshold-cusp explanation for X and Zcs in B+ J/φ K+

Abstract

Several X and Zcs exotic hadrons were claimed in the LHCb's amplitude analysis on B+ J/ φ K+. The data shows that all the peaks and also dips in the spectra are located at thresholds of seemingly relevant meson-meson channels. While the LHCb analysis fitted the peaks with Breit-Wigner resonances, threshold kinematical cusps might be the cause of such structures. We thus analyze the LHCb data considering the threshold cusps. Our model is simultaneously fitted to J/ φ, J/ K+, and K+φ invariant mass distributions. The threshold cusps fit well all the X, Zcs, and dip structures. Our analysis indicates that spin-parity of the X(4274) and X(4500) structures are 0- and 1-, respectively. This is different from the LHCb's spin-parity assignments (1+ and 0+). The number of fitting parameters can be significantly reduced by considering the relevant threshold cusps. Our analysis shows that Ds(*)D* scattering lengths are consistent with zero. This disfavors an explanation of Zcs(4000) and Zcs(4220) as Ds(*)D* molecules, which is consistent with lattice QCD via the SU(3) relation.