Hadron masses in cavity quantum chromodynamics to order αs2

Abstract

The non-divergent diagrams describing two-gluon exchange and annihilation between quarks and antiquarks are calculated in the Feynman gauge, based on quantum chromodynamics in a spherical cavity. Using the experimental N, , , and masses to fit the free parameters of the M.I.T.\ bag model, the predicted states agree very well with the observed low-lying hadrons. As expected, the two-gluon annihilation graphs lift the degeneracy of the π and η, while the and ω remain degenerate. Diagonalizing the η - η' subspace Hamiltonian yields a very good value for the mass of the η meson.

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