Predicting isovector charmonium-like states from X(3872) properties

Abstract

Using chiral effective field theory, we predict that there must be isovector charmonium-like D D* hadronic molecules with JPC=1++ denoted as Wc1. The inputs are the properties of the X(3872), including its mass and the ratio of its branching fractions of decays into J/0 and J/ω. The predicted states are virtual state poles of the scattering matrix, pointing at a molecular nature of the X(3872) as well as its spin partners. They should show up as either a mild cusp or dip at the D D* thresholds, explaining why they are elusive in experiments. The so far negative observation also indicates that the X(3872) is either a bound state with non-vanishing binding energy or a virtual state, only in these cases the X(3872) signal dominates over that from the Wc10. The pole positions are 3881.2+0.8-0.0- i 1.6+0.7-0.9 MeV for Wc10 on the fourth Riemann sheet of the D0 D*0-D+D*- coupled-channel system, and 3866.9+4.6-7.7- i (0.070.01) MeV for Wc1 on the second Riemann sheet of the (D D*) single-channel system. The findings imply that the peak in the J/π+π- invariant mass distribution is not purely from the X(3872) but contains contributions from Wc10 predicted here. The states should have isovector heavy quark spin partners with JPC=0++, 2++ and 1+-, with the last one corresponding to Zc. We suggest to search for the charged 0++, 1++ and 2++ states in J/π π0.

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