Heavy dibaryons (*)cc(*)cc and (*)bb(*)bb

Abstract

We systematically investigate the dibaryons (*)cc(*)cc (di-cc) and (*)bb(*)bb (di-bb), with various isospin-spin configurations I(JP) in a nonrelativistic quark model. For the di-cc system, only the single channels cc*cc and *cc*cc with 0(1+) are capable of forming deuteronlike bound states, with the σ meson exchange playing a decisive role. Those states have binding energies of approximately -1.5 MeV and -3.3 MeV and sizes of 2.37 fm and 1.87 fm, respectively. The coupled channel effect in the di-cc system with 0(1+) enhances the attraction. As a result, this di-cc system can establish a deuteronlike configuration, with the binding energy of -7.5 MeV relative to the threshold cccc and the size of approximately 1.40 fm. For the di-bb system, the single channels with 0(1+), 0(2+), and 0(3+) can give rise to deuteronlike bound states with binding energies ranging from -6.1 MeV to -14.3 MeV. Additionally, the di-bb system with 1(0+) and 1(2+) can also establish deuteronlike bound states with binding energies of around -0.5 MeV. When considering the coupled channel effect in the di-bb system with 0(1+), a compact hexaquark state is formed, exhibiting a binding energy of -21.2 MeV relative to the threshold bbbb and a size of 0.53 fm. In this state, the π meson exchange provides a very powerful attractive force. The meson exchange interactions in the quark model is dispensable in the di-bb bound states, except for bb*bb* with 1(0+).

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