The $\eta$ and $\eta^\prime$ mesons from Lattice QCD

A. Soni; C. Dawson; C. Jung; C.T. Sachrajda; N.H. Christ; Q. Liu; R.D. Mawhinney; R. Zhou; T. Izubuchi

arxiv: 1002.2999 · v2 · pith:H7BGIWVRnew · submitted 2010-02-16 · ✦ hep-lat · hep-ph

The η and η^prime mesons from Lattice QCD

N.H. Christ , C. Dawson , T. Izubuchi , C. Jung , Q. Liu , R.D. Mawhinney , C.T. Sachrajda , A. Soni

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R. Zhou

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classification ✦ hep-lat hep-ph

keywords primemixinglatticemassphysicalangleanomalyarise

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The large mass of the ninth pseudoscalar meson, the $\eta^\prime$, is believed to arise from the combined effects of the axial anomaly and the gauge field topology present in QCD. We report a realistic, 2+1 flavor, lattice QCD calculation of the $\eta$ and $\eta^\prime$ masses and mixing which confirms this picture. The physical eigenstates show small octet-singlet mixing with a mixing angle of $\theta = -14.1(2.8)^\circ$. Extrapolation to physical light quark mass gives, with statistical errors only, $m_\eta=573(6)$ MeV and $m_{\eta^\prime}=947(142)$ MeV, consistent with the experimental values of 548 MeV and 958 MeV.

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