The study of possible molecular states of Ds(*)Ds(*) and Bs(*)Bs(*)

Abstract

Recently the LHCb collaboration reported a new exotic state T+cc which is conjectured to be a molecular state of D0D*+ (or D*0D+) theoretically. Belle Collaboration also searched for tetraquark state Xccss in DsDs (D*sD*s ) final states but no significant signals were observed, which did not rule out the possibility of Xccss to be a molecular state of DsDs (D*sD*s ). Inspired by these experimental results on double charmed exotic state, in this paper we study whether the molecular bound states of Ds(*)Ds(*) and Bs(*)Bs(*) can exist with the Bethe-Salpeter (B-S) equation approach. We employ heavy meson chiral perturbation theory with one boson-exchange approximation to calculate the interaction kernels in the B-S equations. Our numerical results suggest that two Bs* mesons perhaps form a 0+ molecular state. Future experimental search for Xccss states in other decay channels may shed light on the structure of double charmed exotic state.