Hadronic light-by-light corrections to the muon g-2: the pion-pole contribution
Abstract
The correction to the muon anomalous magnetic moment from the pion-pole contribution to the hadronic light-by-light scattering is considered using a description of the pi0 - gamma* - gamma* transition form factor based on the large-Nc and short-distance properties of QCD. The resulting two-loop integrals are treated by first performing the angular integration analytically, using the method of Gegenbauer polynomials, followed by a numerical evaluation of the remaining two-dimensional integration over the moduli of the Euclidean loop momenta. The value obtained, amu(LbyL;pi0) = +5.8 (1.0) x 10-10, disagrees with other recent calculations. In the case of the vector meson dominance form factor, the result obtained by following the same procedure reads amu(LbyL;pi0)VMD = +5.6 x 10-10, and differs only by its overall sign from the value obtained by previous authors. Inclusion of the eta and eta-prime poles gives a total value amu(LbyL;PS) = +8.3 (1.2) x 10-10 for the three pseudoscalar states. This result substantially reduces the difference between the experimental value of amu and its theoretical counterpart in the standard model.
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