Covariant Spinor Formalism for Multipole Expanded Form Factor

Abstract

We present a systematic technique for constructing Lorentz covariant orbital-spin (LS) bases for matrix elements of local operators and the associated form factors, thereby extending the traditional multipole expansion to a Lorentz covariant formalism. In the spinor-helicity formalism, matrix elements of local operators for spin-j particles can be treated as several massive 3-point scattering amplitudes, each of which can be further decomposed into different LS partial wave amplitudes. We obtain explicit complete and linearly independent LS amplitude bases for scalar, vector, and rank 2 tensor form factor of particles with spin-12, 1, and 32. In the Breit frame, it recovers the traditional multipole expansion expression, and we show the explicit equivalence among the traditional multipole expansion, canonical LS expansion, and the SO(3) Zemach tensor expansion. Finally noting covariant structures built from the relativistic external wave functions and momenta of the initial and final state particles, we give a universal construction formula for form factor of arbitrary Lorentz tensor operators for arbitrary external spin particles.