Poincare' Covariant Current Operator and Elastic Electron-Deuteron Scattering in the Front-form Hamiltonian Dynamics
Abstract
The deuteron electromagnetic form factors, A(Q2) and B(Q2), and the tensor polarization T20(Q2), are unambiguously calculated within the front-form relativistic Hamiltonian dynamics, by using a novel current, built up from one-body terms, which fulfills Poincar\'e, parity and time reversal covariance, together with Hermiticity and the continuity equation. A simultaneous description of the experimental data for the three deuteron form factors is achieved up to Q2 < 0.4 (GeV/c)2. At higher momentum transfer, different nucleon-nucleon interactions strongly affect A(Q2), B(Q2), and T20(Q2) and the effects of the interactions can be related to S-state kinetic energy in the deuteron. Different nucleon form factor models have huge effects on A(Q2), smaller effects on B(Q2) and essentially none on T20(Q2).
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