Suppression of decay widths in singly heavy baryons induced by the UA (1) anomaly

Abstract

We study strong and radiative decays of excited singly heavy baryons (SHBs) using an effective chiral Lagrangian based on the diquark picture proposed in Ref. [1]. The effective Lagrangian contains a UA (1) anomaly term, which induces an inverse mass ordering between strange and non-strange SHBs with spin-parity 1/2-. We find that the effect of the UA (1) anomaly combined with flavor-symmetry breaking modifies the Goldberger-Treiman relation for the mass difference between the ground state Q (1/2+) and its chiral partner Q (1/2-), and Q (1/2-) Q (1/2+) η coupling, which results in suppression of the decay width of Q (1/2-) Q (1/2+) η. We also investigate the other various decays such as Q (1/2-) Q (1/2+, \, 3/2+) π π, Q (1/2-) Q (1/2+) π, Q (1/2-) Q (1/2+, \, 3/2+) γ, and Q (1/2-) Q (1/2+) π0 for wide range of mass of Q (1/2-).