A model for the calculation of the optical potential in some finite nuclei

The deviation of very small nuclear systems from saturation is studied. In the framework of a soluble one-dimensional model based on the energy density formalism, we establish simple expressions for the density profile, the deviation from nuclear matter density, and the Fermi energy as a function of

## Abstract Optical‐model potentials are constructed for nucleon‐nucleus scattering. The contribution of collective states to the imaginary part of the optical potential is investigated; the interaction between the incident nucleon and an even‐even deformed target nucleus is considered in the weak

interactions is presented, in which a ctassica1 mode1 due to Kirkwood is used to derive an expression for the potentisf affecting a molecule due to a solvent. From this the quantum rne~h~n~c~ h~m~itoni~n for the mofecule in the presence of the solvent can be deduced, and a variation& minimizatian of

A theory of solvent-solute interactions is presented. in which a classical model due to Kirkwood is used to derive ;u) expression for the potential affecting a molecule due to a solvent. From this the quantum mechanical hamiltonian for the molecule in the presence of the solvent can be deduced, and