A quark-diquark formalism extracts effective masses and couplings from known heavy baryon data to predict spectra across singly, doubly, and triply heavy sectors with two scenarios and a mass-dependent binding term.
Aaijet al.(LHCb), Chin
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Magnetic moments and radiative decay widths of doubly- and triply-heavy baryons are computed in the dynamical heavy diquark model, with predictions for unobserved states.
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Quark-diquark effective mass formalism for heavy baryon spectroscopy
A quark-diquark formalism extracts effective masses and couplings from known heavy baryon data to predict spectra across singly, doubly, and triply heavy sectors with two scenarios and a mass-dependent binding term.
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Magnetic moments and radiative decay widths of doubly- and triply-heavy baryons in the dynamical heavy diquark model
Magnetic moments and radiative decay widths of doubly- and triply-heavy baryons are computed in the dynamical heavy diquark model, with predictions for unobserved states.