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How the axial anomaly controls flavor mixing among mesons

It is well known that because of the axial anomaly in QCD, mesons with \(J^P = 0^-\) are close to \(SU(3)_{\mathrm{V}}\) eigenstates: the \(eta^\prime(958)\) meson is largely a singlet, and the \(\eta\) meson an octet. In contrast, states with \(J^P = 1^-\) are flavor diagonal: \textit{e.g.}, the \(...

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Bibliographic Details
Published in:arXiv.org 2018-04
Main Authors: Giacosa, Francesco, Koenigstein, Adrian, Pisarski, Robert D
Format: Article
Language:English
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Summary:It is well known that because of the axial anomaly in QCD, mesons with \(J^P = 0^-\) are close to \(SU(3)_{\mathrm{V}}\) eigenstates: the \(eta^\prime(958)\) meson is largely a singlet, and the \(\eta\) meson an octet. In contrast, states with \(J^P = 1^-\) are flavor diagonal: \textit{e.g.}, the \(\phi(1020)\) is almost pure \(\bar{s} s\). Using effective Lagrangians, we show how this generalizes to states with higher spin, assuming that they can be classified according to the unbroken chiral symmetry of \(G_{\mathrm{fl}} = SU(3)_{\mathrm{L}} \times SU(3)_{\mathrm{R}}\). We construct effective Lagrangians from terms invariant under \(G_{\mathrm{fl}}\), and introduce the concept of \textit{hetero-} and \textit{homo}chiral multiplets. Because of the axial anomaly, only terms invariant under the \(Z(3)_{\mathrm{A}}\) subgroup of the axial \(U(1)_{\mathrm{A}}\) enter. For heterochiral multiplets, which begin with that including the \(\eta\) and \(\eta^\prime(958)\), there are \(Z(3)_{\mathrm{A}}\) invariant terms with low mass dimension which cause states to mix according to \(SU(3)_{\mathrm{V}}\) flavor. For homochiral multiplets, which begin with that including the \(\phi(1020)\), there are no \(Z(3)_{\mathrm{A}}\) invariant terms with low mass dimension, and so states are diagonal in flavor. In this way we predict the flavor mixing for the heterochiral multiplet with spin one, as well as for hetero- and homochiral multiplets with spin two and spin three.
ISSN:2331-8422
DOI:10.48550/arxiv.1709.07454