Axial resonances a1(1260), b1(1235) and their decays from the lattice

Abstract

The light axial-vector resonances a1(1260) and b1(1235) are explored in Nf=2 lattice QCD by simulating the corresponding scattering channels π and ωπ. Interpolating fields q q and π or ωπ are used to extract the s-wave phase shifts for the first time. The and ω are treated as stable and we argue that this is justified in the considered energy range and for our parameters mπ 266~MeV and L 2~fm. We neglect other channels that would be open when using physical masses in continuum. Assuming a resonance interpretation a Breit-Wigner fit to the phase shift gives the a1(1260) resonance mass ma1res=1.435(53)(+0-109) GeV compared to ma1exp=1.230(40) GeV. The a1 width a1(s)=g2 p/s is parametrized in terms of the coupling and we obtain ga1π=1.71(39) GeV compared to ga1πexp=1.35(30) GeV derived from a1exp=425(175) MeV. In the b1 channel, we find energy levels related to π(0)ω(0) and b1(1235), and the lowest level is found at E1 mω+mπ but is within uncertainty also compatible with an attractive interaction. Assuming the coupling gb1ωπ extracted from the experimental width we estimate mb1res=1.414(36)(+0-83).