English

Second order formalism for spin 1/2 fermions and Compton scattering

High Energy Physics - Phenomenology 2011-04-22 v1

Abstract

We develop a second order formalism for spin 1/2 fermions based on the projection over Poincar\'{e} invariant subspaces in the (1/2,0)(0,1/2)(1/2,0)\oplus(0,1/2) representation of the homogeneous Lorentz group. Using U(1)emU(1)_{em} gauge principle we obtain second order description for the electromagnetic interactions of a spin 1/2 fermion with two free parameters, the gyromagnetic factor gg and a parameter ξ\xi related to odd-parity Lorentz structures. We calculate Compton scattering in this formalism. In the particular case g=2,ξ=0g=2, \xi=0 and for states with well defined parity we recover Dirac results. In general, we find the correct classical limit and a finite value rc2r_{c}^{2} for the forward differential cross section, independent of the photon energy and of the value of the parameters gg and ξ\xi. The differential cross section vanishes at high energies for all g,ξg, \xi except in the forward direction. The total cross section at high energies vanishes only for g=2,ξ=0g=2, \xi=0. We argue that this formalism is more convenient than Dirac theory in the description of low energy electromagnetic properties of baryons and illustrate the point with the proton case.

Keywords

Cite

@article{arxiv.1012.4130,
  title  = {Second order formalism for spin 1/2 fermions and Compton scattering},
  author = {E. G. Delgado-Acosta and Mauro Napsuciale and Simon Rodriguez},
  journal= {arXiv preprint arXiv:1012.4130},
  year   = {2011}
}

Comments

11 pages 4 figures

R2 v1 2026-06-21T17:01:06.162Z