# Subleading power corrections to the pion-photon transition form factor   in QCD

**Authors:** Yu-Ming Wang, Yue-Long Shen

arXiv: 1706.05680 · 2018-01-17

## TL;DR

This paper refines the understanding of the pion-photon transition form factor in QCD by analyzing subleading power corrections and demonstrating consistency across different regularization schemes, aligning theory with experimental data.

## Contribution

It introduces a comprehensive calculation of subleading power corrections to the form factor using light-cone sum rules and confirms the equivalence of different gamma_5 prescriptions in dimensional regularization.

## Key findings

- Subleading power corrections are significant for the form factor.
- Theoretical predictions agree with BaBar and Belle data without exotic pion DAs.
- Consistency across gamma_5 schemes is established.

## Abstract

We reconsider QCD factorization for the leading power contribution to the $\gamma^{\ast} \gamma \to \pi^0$ form factor $F_{\gamma^{\ast} \gamma \to \pi^0} (Q^2)$ at one loop using the evanescent operator approach, and demonstrate the equivalence of the resulting factorization formulae derived with distinct prescriptions of $\gamma_5$ in dimensional regularization. Applying the light-cone QCD sum rules (LCSRs) with photon distribution amplitudes (DAs) we further compute the subleading power contribution to the pion-photon form factor induced by the "hadronic" component of the real photon at the next-to-leading-order in ${\cal O}(\alpha_s)$, with both naive dimensional regularization and 't Hooft-Veltman schemes of $\gamma_5$. Confronting our theoretical predictions of $F_{\gamma^{\ast} \gamma \to \pi^0} (Q^2)$ with the experimental measurements from the BaBar and the Belle Collaborations implies that a reasonable agreement can be achieved without introducing an "exotic" end-point behaviour for the twist-2 pion DA.

## Full text

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## Figures

27 figures with captions in the complete paper: https://tomesphere.com/paper/1706.05680/full.md

## References

99 references — full list in the complete paper: https://tomesphere.com/paper/1706.05680/full.md

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Source: https://tomesphere.com/paper/1706.05680