Abstract
Within the framework of non-relativistic quantum scattering theory, we treat the charged hadron scattering by replacing the nuclear interaction by a separable nonlocal one and the electromagnetic part by the Manning–Rosen potential. The off-energy-shell scattering is rigorously studied by this additive interaction by including the effect of electromagnetic interaction. The exact analytical expressions for the off-shell solutions and half-shell T-matrix are obtained in maximal reduced form. The half-shell T-matrix for the proton–oxygen system is computed and the resultant phase shifts are found in order.
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