The sQqq (q=u,\,d;\, Q=c,\,b) tetraquarks in the chiral quark model

Abstract

The low-lying sQqq (q=u,\,d,\, Q=c,\,b) tetraquark states with JP=0+, 1+ and 2+, and in the isoscalar and isovector sectors, are systematically investigated in the framework of real- and complex-scaling range of a chiral quark model, whose parameters have been fixed in advance describing hadron, hadron-hadron and multiquark phenomenology, and thus all results presented here are pure predictions. Each tetraquark configuration, compatible with the quantum numbers studied, is taken into account; this includes meson-meson, diquark-antidiquark and K-type arrangements of quarks with all possible color wave functions in four-body sector. Among the different numerical techniques to solve the Schr\"odinger-like 4-body bound state equation, we use a variational method in which the trial wave function is expanded in complex-range Gaussian basis functions, because its simplicity and flexibility. Several compact bound states and narrow resonances are found in both charm-strange csqq and bottom-strange bsqq tetraquark sectors, most of them as a product of the strong coupling between the different channels. The so-called X0,1(2900) signals, recently found by the LHCb collaboration, are unstable in our formalism with several candidates in the single-channel computations.

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