Full quark-gluon vertex dynamics in the gap equation yields real poles with opposite-sign residues and a 350 MeV constituent mass, unlike prior approximations that produce complex poles.
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Application of the CBS rotor model to rare-earth even-even nuclei produces calculated ground-state band energies, B(E2) transition rates, and beta-band excitations that are compared with experimental data and used to predict unmeasured observables.
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Real poles with opposite-sign residues in the non-perturbative quark propagator
Full quark-gluon vertex dynamics in the gap equation yields real poles with opposite-sign residues and a 350 MeV constituent mass, unlike prior approximations that produce complex poles.
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The Confined beta-Soft rotor model in rare-earth nuclei
Application of the CBS rotor model to rare-earth even-even nuclei produces calculated ground-state band energies, B(E2) transition rates, and beta-band excitations that are compared with experimental data and used to predict unmeasured observables.