Hadronic molecules with four charm or beauty quarks

Abstract

We apply the extended local hidden gauge formalism to study the meson-meson interactions with the quark constituents cc c c, cc c b/ c c cb, cc b b/ c c bb, bb c b/ b b cb, and bb b b, where the exchanged mesons are the fully-heavy vector mesons J/, Bc*, and . We solve the coupled-channel Bethe-Salpeter equation to derive two poles in the bbcb system and two poles in the cccb system. There are also four charge-conjugated poles in the bbcb and cccb systems. In the bbcb system, one pole corresponds to a sub-threshold bound state when the cutoff momentum is set to > 850 MeV. The other pole in this system corresponds to a sub-threshold bound state when > 1100 MeV. In the cccb system, the two poles correspond to sub-threshold bound states only when > 1550 MeV and > 2650 MeV. This makes them difficult to identify as deeply-bound hadronic molecules. We propose investigating the two poles of the bbcb system in the μ+μ-Bc-channel at the LHC.

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