Are there narrow flavor-exotic tetraquarks in large-Nc QCD?

Abstract

A salient feature shared by all tetraquark candidates observed in experiment is the absence of flavor-exotic states of the type a b c d, with four different quark flavors. This phenomenon may be understood from the properties of large-Nc QCD: On the one hand, consistency conditions for flavor-exotic Green functions, potentially containing these tetraquark poles, require the existence of two tetraquarks TA and TB: each of them should decay dominantly via a single two-meson channel, TA M a bM c d and TB M a dM c b, with suppressed rates TA M a dM c b and TB M a bM c d. On the other hand, we have at hand only one diquark-antidiquark flavor structure ( a c)(b d) that might produce a compact tetraquark bound state. Taking into account that the diquark-antidiquark structure is the only viable candidate for a compact tetraquark state, one concludes that it is impossible to have two different narrow tetraquarks decaying dominantly into different two-meson channels. This contradiction suggests that large-Nc QCD does not support the existence of narrow flavor-exotic tetraquarks. This argument does not rule out the possible existence of broad molecular-type flavor-exotic states, or of molecular-type bound states lying very close to the two-meson thresholds.