Vertex function

In quantum electrodynamics, the vertex function describes the coupling between a photon and an electron beyond the leading order of perturbation theory. In particular, it is the one particle irreducible correlation function involving the fermion ${\displaystyle \psi }$, the antifermion ${\displaystyle \overline{\psi }}$, and the vector potential A.

The vertex function ${\displaystyle {\Gamma }^{\mu }}$ can be defined in terms of a functional derivative of the effective action S_eff as

${\displaystyle {\Gamma }^{\mu }=-\frac{1}{e}\frac{{\delta }^3{S}_{\mathrm{e}\mathrm{f}\mathrm{f}}}{\delta \overline{\psi }\delta \psi \delta A_{\mu }}}$

The dominant (and classical) contribution to ${\displaystyle {\Gamma }^{\mu }}$ is the gamma matrix ${\displaystyle {\gamma }^{\mu }}$, which explains the choice of the letter. The vertex function is constrained by the symmetries of quantum electrodynamics — Lorentz invariance; gauge invariance or the transversality of the photon, as expressed by the Ward identity; and invariance under parity — to take the following form:

${\displaystyle {\Gamma }^{\mu }={\gamma }^{\mu }{F}_1(q^2)+\frac{i{\sigma }^{\mu \nu }{q}_{\nu }}{2m}{F}_2(q^2)}$

where ${\displaystyle {\sigma }^{\mu \nu }=(i/2)[{\gamma }^{\mu },{\gamma }^{\nu }]}$, ${\displaystyle q_{\nu }}$ is the incoming four-momentum of the external photon (on the right-hand side of the figure), and F₁(q²) and F₂(q²) are the Dirac and Pauli form factors,^[1] respectively, that depend only on the momentum transfer q². At tree level (or leading order), F₁(q²) = 1 and F₂(q²) = 0. Beyond leading order, the corrections to F₁(0) are exactly canceled by the field strength renormalization. The form factor F₂(0) corresponds to the anomalous magnetic moment a of the fermion, defined in terms of the Landé g-factor as:

${\displaystyle a=\frac{g-2}{2}=F_2(0)}$

In 1948, Julian Schwinger calculated the first correction to anomalous magnetic moment, given by

${\displaystyle F_2(0)\approx \frac{\alpha }{2\pi }}$

where α is the fine-structure constant.^[2]

• Nonoblique correction

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