Worldline master formulas for the dressed electron propagato, part 2: on-shell amplitudes

In the first part of this series, we employed the second-order formalism and the“symbol” map to construct a particle path-integral representation of the electron propagator in a background electromagnetic field, suitable for open fermion-line calculations. Its main advantages are the avoidance of long products of Dirac matrices, and its ability to unify whole sets of Feynman diagrams related by permutation of photon legs along the fermion lines. We obtained a Bern-Kosower type master formula for the fermion propagator, dressedwithNphotons, in terms of the “N-photon kernel,” where this kernel appears also in“subleading” terms involving only N−1 of the N-photons.In this sequel, we focus on the application of the formalism to the calculation of on-shell amplitudes and cross-sections. Universal formulas are obtained for the fully polarised matrix elements of the fermion propagator dressed with an arbitrary number of photons, as well as for the corresponding spin-averaged cross-sections. A major simplification of the on-shell case is that the subleading terms drop out, but we also pinpoint other, less obvious simplifications. We use integration by parts to achieve manifest transversality of these amplitudes at the integrand level and exploit this property using the spinor helicity technique. We give a simple proof of the vanishing of the matrix element for all “+” photon helicities in the massless case and find a novel relation between the scalar and spinor spin-averaged cross-sections in the massive case. Testing the formalism on the standard linear Comptonscattering process, we find that it reproduces the known results with remarkable efficiency. Further applications and generalisations are pointed out.