Scalar molecules η bBc- and η cBc+ with asymmetric quark contents

Abstract

The hadronic scalar molecules Mb and Mc with asymmetric quark contents bb bc and cc c b are explored by means of the QCD sum rule method. Their masses and current couplings are calculated using the two-point sum rule approach. The obtained results show that they are strong-interaction unstable particles and transform to ordinary mesons' pairs. The molecule M b dissociates through the process Mb η bBc-. The decays Mc→ η cBc+ and J/ Bc + are dominant modes for the molecule Mc. The full decay widths of the molecules \ \ Mb and Mc are estimated using these decay channels, as well as ones generated by the annihilation of bb and c c quarks in Mb and Mc, respectively. The QCD three-point sum rule method is employed to find partial widths all of these channels. This approach is required to evaluate the strong couplings at the molecule-meson-meson vertices under consideration. The mass m=(15728 90)~MeV and width [ Mb] =(93 17)~ MeV of the molecule Mb , and m=(9712 72)~MeV and [Mc] =(70 10)~ MeV in the case of Mc offer valuable guidance for experimental searches at existing facilities.

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