The decay $η\to 3 Ï$: study of the Dalitz plot and extraction of the quark mass ratio $Q$
arXiv:1610.03494 · doi:10.1103/PhysRevLett.118.022001
Abstract
The $η\to 3 Ï$ amplitude is sensitive to the quark mass difference $m_u-m_d$ and offers a unique way to determine the quark mass ratio $Q^2 \equiv (m_s^2-m_{ud}^2)/(m_d^2-m_u^2)$ from experiment. We calculate the amplitude dispersively and fit the KLOE data on the charged mode, varying the subtraction constants in the range allowed by chiral perturbation theory. The parameter-free predictions obtained for the neutral Dalitz plot and the neutral-to-charged branching ratio are in excellent agreement with experiment. Our representation of the transition amplitude implies $Q = 22.0 \pm 0.7$.
5 pages, 1 figure, v2 = published version. Slightly shorter and with minor changes