η → 3π decay and πη scattering in chiral SU(2) × SU(2) symmetry

Abstract

Abstract The problem of η → 3 π decay in chiral SU(2) × SU(2) symmetry is investigated. We argue that the well-known difficulties of the conventional pole model originate from underestimating the role of the η-meson pole graph. This model is shown to be suitable for describing η → 3 π decay if the strong ηηππ vertex in the η-pole graph is determined by an SU(2) × SU(2)-invariant interaction. The π o − η transition constant g πη is evaluated from U -spin invariance with the help of a current-mixing model: | g πη | ≈ 0.05. It turns out that the experimental data on both the decay widths and the energy spectrum can be satisfied by fitting the value of the ηηππ coupling constant as a parameter. As a result, predictions for the s- and p-wave πη scattering lengths are obtained: | a πη 0 | ≈ 0.2 m π −1 , | a πη 1 | ≈ 0.1 m π −3 .