J. Adam, Jr., Franz Gross, Sabine Jeschonnek, Paul Ulmer, J. W. Van Orden
Published 2002-04-26Version 2
Using the covariant spectator theory and the transversity formalism, the unpolarized, coincidence cross section for deuteron electrodisintegration, $d(e,e'p)n$, is studied. The relativistic kinematics are reviewed, and simple theoretical formulae for the relativistic impulse approximation (RIA) are derived and discussed. Numerical predictions for the scattering in the high $Q^2$ region obtained from the RIA and five other approximations are presented and compared. We conclude that measurements of the unpolarized coincidence cross section and the asymmetry $A_\phi$, to an accuracy that will distinguish between different theoretical models, is feasible over most of the wide kinematic range accessible at Jefferson Lab.
Comments: 54 pages and 24 figures
Journal: Phys.Rev.C66:044003,2002
Electromagnetic interactions of three-body systems in the covariant spectator theory
General study of superscaling in quasielastic $(e,e')$ and $(ν,μ)$ reactions using the relativistic impulse approximation
Validity of the relativistic impulse approximation for elastic proton-nucleus scattering at energies lower than 200 MeV
