Lattice calculation of the pion transition form factor $\pi^0 \to \gamma^* \gamma^*$

TL;DR

This paper presents a lattice QCD calculation of the pion transition form factor for spacelike photons, providing essential input for muon g-2 calculations and comparing results with theoretical models.

Contribution

First lattice QCD computation of the $ o o o$ transition form factor at physical pion mass in the spacelike region, aiding muon g-2 theoretical predictions.

Findings

Reproduces chiral anomaly prediction with 8-9% accuracy.

Provides form factor data up to 1.5 GeV$^2$ virtualities.

Estimates the pion-pole contribution to muon g-2.

Abstract

We calculate the $\pi^0\to \gamma^*\gamma^*$ transition form factor ${\cal F}_{\pi^0\gamma^*\gamma^*}(q_1^2,q_2^2)$ in lattice QCD with two flavors of quarks. Our main motivation is to provide the input to calculate the $\pi^0$-pole contribution to hadronic light-by-light scattering in the muon $(g-2)$, $a_\mu^{\rm HLbL;\pi^0}$. We therefore focus on the region where both photons are spacelike up to virtualities of about $1.5~$GeV$^2$, which has so far not been experimentally accessible. Results are obtained in the continuum at the physical pion mass by a combined extrapolation. We reproduce the prediction of the chiral anomaly for real photons with an accuracy of about $8-9\%$. We also compare to various recently proposed models and find reasonable agreement for the parameters of some of these models with their phenomenological values. Finally, we use the parametrization of our lattice data by these models to calculate $a_\mu^{\rm HLbL;\pi^0}$.