Exotic tetraquark states with JPC=0+-

Abstract

We use the Laplace/Borel sum rules (LSR) and the finite energy/local duality sum rules (FESR) to investigate the non-strange ud u d and hidden-strange us u s tetraquark states with exotic quantum numbers JPC=0+- . We systematically construct all eight possible tetraquark currents in this channel without covariant derivative operator. Our analyses show that the ud u d systems have good behaviour of sum rule stability and expansion series convergence in both the LSR and FESR analyses, while the LSR for the us u s states do not associate with convergent OPE series in the stability regions and only the FESR can provide valid results. We give the mass predictions 1.430.09 GeV and 1.540.12 GeV for the ud u d and us u s tetraquark states, respectively. Our results indicate that the 0+- isovector us u s tetraquark may only decay via weak interaction mechanism, e.g. Xusus Kππ, since its strong decays are forbidden by kinematics and the symmetry constraints on the exotic quantum numbers. It is predicted to be very narrow, if it does exist. The 0+- isoscalar us u s tetraquark is also predicted to be not very wide because its dominate decay mode Xususφππ is in P-wave.