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, the antifermion, and the vector potential A.

Definition

The vertex function can be defined in terms of a functional derivative of the effective action Seff as
The dominant contribution to is the gamma matrix, 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:
where, is the incoming four-momentum of the external photon, and F1 and F2 are form factors that depend only on the momentum transfer q2. At tree level, F1 = 1 and F2 = 0. Beyond leading order, the corrections to F1 are exactly canceled by the field strength renormalization. The form factor F2 corresponds to the anomalous magnetic moment a of the fermion, defined in terms of the Landé g-factor as: