Subleading contributions to the decay width of the Tcc+ tetraquark

Abstract

Recently the LHCb collaboration has announced the discovery of the Tcc+ tetraquark. Being merely a few hundred keV below the D*+ D0 threshold, the Tcc+ is expected to have a molecular component, for which there is a good separation of scales that can be exploited to make reasonably accurate theoretical predictions about this tetraquark. Independently of its nature, the most important decay channels will be D+ D0 π0, D0 D0 π+ and D+ D0 γ. Its closeness to threshold suggests that the mass and particularly the width of the Tcc+ tetraquark depend on the resonance profile. While the standard Breit-Wigner parametrization generates a Tcc+ that is too broad for current theoretical calculations to reproduce, a three-body unitarized Breit-Wigner shape reveals instead a decay width ( pole = 48 2\,+0-12\, keV) consistent with theoretical expectations. Here we consider subleading order contributions to the decay amplitude, which though having at most a moderate impact in the width still indicate potentially significant differences with the experimental width that can be exploited to disentangle the nature of the Tcc+. Concrete calculations yield LO = 49 16\, keV and NLO = 58+7-6\, keV, though we expect further corrections to the NLO decay widths from asymptotic normalization effects. We find that a detailed comparison of the NLO total and partial decay widths with experiment suggests the existence of a small (but distinguishable from zero) non-molecular component of the Tcc+.