The scalar exotic resonances X(3915), X(3960), X(4140)

Abstract

The scalar resonances X(3915), X(3960), X(4140) are considered as exotic four-quark states: cq c q, cs c s, cs c s, while the X(3863) is proved to be the c c, 2\,3P0 state. The masses and the widths of these resonances are calculated in the framework of the Extended Recoupling Model, where a four-quark system is formed inside the bag and has relatively small size ( 1.0~fm). Then the resonance X(3915) appears due to the transitions: J/ω into D*+D*- (or D*0 D*0) and back, while the X(3960) is created due to the transitions Ds+Ds- into J/φ and back, and the X(4140) is formed in the transitions J/φ into Ds*+Ds*- and back. The characteristic feature of the recoupling mechanism is that this type of resonances can be predominantly in the S-wave decay channels and has JP=0+. In two-channel case the resonance occurs to be just near the lower threshold, while due to coupling to third channel (like the c c channel) it is shifted up and lies by (20--30)~MeV above the lower threshold. The following masses and widths are calculated: M(X(3915))=3920~MeV, (X(3915))=20~MeV; M(X(3960))=3970~MeV, (X(3960)=45(5)~MeV, M(X(4140))= 4120(20)~MeV, (X(4140))=100~MeV, which are in good agreement with experiment.