Abstract
We reconsider the contribution due to $\pi a_1$-mixing to the anomalous $\gamma\to\pi^+\pi^0\pi^-$ amplitude from the standpoint of the low-energy theorem $F^{\pi}=e f_\pi^2 F^{3\pi}$, which relates the electromagnetic form factor $F_{\pi^0\to\gamma\gamma}=F^\pi$ with the form factor $F_{\gamma\to\pi^+\pi^0\pi^-}=F^{3\pi}$ both taken at vanishing momenta of mesons. Our approach is based on a recently proposed covariant diagonalization of $\pi a_1$-mixing within a standard effective QCD-inspired meson Lagrangian obtained in the framework of the Nambu-Jona-Lasinio model. We show that the two surface terms appearing in the calculation of the anomalous triangle quark diagrams or AVV- and AAA-type amplitudes are uniquely fixed by this theorem. As a result, both form factors $F^\pi$ and $F^{3\pi}$ are not affected by the $\pi a_1$-mixing, but the concept of vector meson dominance (VMD) fails for $\gamma\to\pi^+\pi^0\pi^-$.
Highlights
The Wess-Zumino [1] effective action precisely describes all effects of QCD anomalies in low-energy processes with photons and Goldstone bosons
We reconsider the contribution due to πa1 mixing to the anomalous γ → πþπ0π− amplitude from the standpoint of the low-energy theorem Fπ 1⁄4 ef2πF3π, which relates the electromagnetic form factor Fπ0→γγ 1⁄4 Fπ with the form factor Fγ→πþπ0π− 1⁄4 F3π both taken at vanishing momenta of mesons
We show that the two surface terms appearing in the calculation of the anomalous triangle quark diagrams or AVV- and AAA-type (A, axial-vector; V, vector) amplitudes are uniquely fixed by this theorem
Summary
The Wess-Zumino [1] effective action precisely describes all effects of QCD anomalies in low-energy processes with photons and Goldstone bosons. To get around this difficulty Fujiwara et al [5] used a framework where vector mesons were identified with dynamical gauge bosons of the hidden local Uð3ÞV symmetry This approach does not change the WessZumino action, which gets an additional anomalyfree term with vector mesons. The. Wess-Zumino action gives correct predictions for a set of low-energy processes, e.g., π0 → γγ, γ → 3π without any reference to the massive vector mesons. Wess-Zumino action gives correct predictions for a set of low-energy processes, e.g., π0 → γγ, γ → 3π without any reference to the massive vector mesons If one includes these states one should demonstrate how VMD is possible. It would be instructive to see the mechanism of such suppression in the pertinent hadron models
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