Analytical dispersive construction of $η\to3π$ amplitude: First order in isospin breaking

Details Analytical dispersive construction of $η\to3π$ amplitude: First order in isospin breaking Analytical dispersive construction of $η\to3π$ amplitude: First order in isospin breaking

2011-03-04

arxiv.org/abs/1103.0982v2

Phys. Rev. D 84, 114015 (2011)

Physics

High Energy Physics

High Energy Physics - Phenomenology

40 pages, 4 figures

Scientific paper

10.1103/PhysRevD.84.114015

Because of their small electromagnetic corrections, the isospin-breaking decays $\eta\to3\pi$ seem to be good candidates for extracting isospin-breaking parameters $ (m_d-m_u)$. This task is unfortunately complicated by large chiral corrections and the discrepancy between the experimentally measured values of the Dalitz parameters describing the energy dependence of the amplitudes of these decays and those predicted from chiral perturbation theory. We present two methods based on an analytic dispersive representation that use the information from the NNLO chiral result and the one from the measurement of the charged $\eta\to3\pi$ decay by KLOE together in a harmonized way in order to determine the value of the quark mass ratio $R$. Our final result is $R=37.7\pm 2.2$. This value supplemented by values of $m_s/\hat{m}$ or even $\hat{m}$ and $m_s$ from other methods (as sum-rules or lattice) enables us to obtain further quark mass characteristics. For instance the recent lattice value for $m_s/\hat{m}~27.5$ leads to $Q= 23.1\pm0.7$. We also quote the corresponding values of the current masses $m_u$ and $m_d$.

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