The relationship between undularity and L dependence of the nuclear optical model potential

Abstract

The contribution of collective or reaction channels to a local optical model potential, OMP, can be readily calculated as a dynamical polarization potential, DPP. The resulting local DPPs commonly have undulatory (`wavy') features, often including local regions of emissivity in the imaginary component. We show here that this undularity arises from l-dependence of the underlying formal non-local and l-dependent DPP. The l-independent proton OMPs, that have the same S-matrix Slj as phenomenological l-dependent potentials, exhibit undulations that are qualitatively similar to undulations of local DPPs generated by channel coupling. The l-dependent phenomenological potentials studied are the potentials that give the best existing fits to the relevant elastic scattering data and the undulatory potentials presented here, being S-matrix equivalent (i.e.\ having the same S-matrix, Slj) give exactly the same scattering. In addition, we present calculations strongly suggesting that undularity (`waviness') is a generic property of l-independent potentials that are S-matrix equivalent to l-dependent potentials. Implications for the validity of folding models based on a local density model are noted.