Light Hadron Masses from a Matrix Model for QCD

Abstract

The SU(3) Yang-Mills matrix model coupled to fundamental fermions is an approximation of quantum chromodynamics (QCD) on a 3-sphere of radius R. The spectrum of this matrix model Hamiltonian is estimated using standard variational methods, and is analyzed in the strong coupling limit. By employing a matching prescription to determine the dependence of the Yang-Mills coupling constant g on R, we relate the asymptotic values of the energy eigenvalues in the R → ∞ (flat space) limit to the masses of light hadrons. We find that the matrix model estimates the light hadron spectrum fairly accurately, with the light baryon masses falling within 10\%, and most light meson masses falling within about 30\% of their observed values.