Study of decuplet baryon resonances from lattice QCD

A lattice QCD study of the strong decay width and coupling constant of decuplet baryons to an octet baryon-pion state is presented. The transfer matrix method is used to obtain the overlap of lattice states with decuplet baryon quantum numbers on the one hand and octet baryon-pion quantum numbers on the other as an approximation of the matrix element of the corresponding transition. By making use of leading-order effective field theory, the coupling constants as well as the widths for the various decay channels are determined. The transitions studied are Delta -> pi N, Sigma* -> Lambda pi, Sigma* -> Sigma pi and Xi* -> Xi pi. We obtain results for two ensembles of N-f = 2 + 1 dynamical fermion configurations: one using domain wall Valence quarks on a staggered sea at a pion mass of 350 MeV and a box size of 3.4 fm and a second one using domain wall sea and valence quarks at pion mass 180 MeV and box size 4.5 fm.