Stable scalar tetraquark Tbb;ud-

Abstract

The mass and coupling of the scalar tetraquark Tbb;ud - (hereafter Tb:d- ) are calculated in the context of the QCD two-point sum rule method. In computations we take into account effects of various quark, gluon and mixed condensates up to dimension ten. The result obtained for the mass of this state m=(10135 240)~MeV demonstrates that it is stable against the strong and electromagnetic decays. We also explore the dominant semileptonic Tb:d- Zbc;ud0l l and nonleptonic decays Tb:d- Zbc;u d0M, where Zbc;ud0 is the scalar tetraquark composed of color-sextet diquark and antidiquark, and M is one of the final-state pseudoscalar mesons π-, K-, D- and Ds- , respectively. The partial widths of these processes are calculated in terms of the weak form factors G1(2)(q2), which are determined from the QCD three-point sum rules. Predictions for the mass, full width full =(10.88 1.88)× 10-10~MeV, and mean lifetime τ=0.61-0.09+0.13~ps of the Tb:d - obtained in the present work can be used in theoretical and experimental studies of this exotic state.