Fully open-flavor tetraquark states bcqs and scqb with JP=0+,1+

Abstract

We have studied the masses for fully open-flavor tetraquark states bcqs and scqb with quantum numbers JP=0+,1+. We systematically construct all diquark-antiquark interpolating currents and calculate the two-point correlation functions and spectral densities in the framework of QCD sum rule method. Our calculations show that the masses are about 7.1-7.2 GeV for the bcqs tetraquark states and 7.0-7.1 GeV for the scqb tetraquarks. The masses of bcqs tetraquarks are below the thresholds of BsD and Bs*D final states for the scalar and axial-vector channels respectively. The scqb tetraquark states with JP=1+ lie below the Bc+K* and Bs*D thresholds. Such low masses for these possible tetraquark states indicate that they can only decay via weak interaction and thus are very narrow and stable.