%0 Journal Article
%T The diagonal spin basis and calculation of processes involving polarized particles
%A M. V. Galynskii
%A S. M. Sikach
%J Physics
%D 1999
%I arXiv
%R 10.1134/1.953087
%X The review of developed by the authors new techniques for covariant calculation of matrix elements in QED, the so-called formalism of "Diagonal Spin Basis" (DSB), is presented. In DSB spin 4-vectors of in- and out- fermions are expressed just in terms of their 4-momenta. In this approach the little Lorentz group, common for the initial and final states,is realized. This brings the spin operators of in- and out-particles to coincidence. The developed approach is valid both for massive fermions and for massless ones. There occur no problems with accounting for spin flip amplitudes in it. Just 4-momenta of particles participating in reactions are required in it to construct the mathematical apparatus for calculations of matrix elements. We apply this formalism to the next processes: 1) M\"oller and Bhabha bremsstrahlung ($e^{\pm}e^- \to e^{\pm}e^- \gamma$) in the ultrarelativistic limit when initial particles and photon are helicity polarized; 2) Compton back-scattering of photons of intensive circularly polarized laser wave on a beam of longitudinally polarized ultrarelativistic electrons ($e+n\gamma_0 \to e+\gamma $); 3) $e^+e^-$-pair production by a hard photon in simultaneous collision with several laser beam photons ($\gamma+n \gamma_0 \to e^+ + e^-$); 4) Bethe-Heitler process in the case of a linearly polarized photon emission by an electron with account for proton recoil and form factors; 5) the reaction $ep \to ep \gamma$ with proton polarizability being taken into account in the kinematics when proton bremsstrahlung dominates; 6) orthopositronium 3-photon annihilation ($e^+e^{-} \to 3 \gamma$).
%U http://arxiv.org/abs/hep-ph/9910284v1