Potential models for kaon-nucleon scattering and kaonic atoms

A model potential approach fs considered for electron-and positron-atom scattering in order to handle with ease the calculation of the scattering amplitudes in the case of collision by a more complex atomic target. As an illustrative example demonstrating the feasibility of this method of approach,

The quark contining two-step potential used earlier for mesons is now applied to nucleons. By using the Coulomb part of this potential for the quark-quark pair we investigate the predictions of the quark-diquark (QDQ) model for the nucleons. It is found that this kind of composite model, consistent

Complex Kohn variational principle is applied to the numerical solution of the fully off-shell Lippmann-Schwinger equation for nucleon-nucleon scattering for various partial waves including the coupled \({ }^{3} S_{1}-{ }^{3} D_{1}\) channel. Analytic expressions are obtained for all the integrals i

In this article we present model potential parameters for alkali metal atoms Li to Cs and the Li isoelectronic sequence. Model potentials combined with discrete variable and finite element techniques allow an accurate and quick numerical method to compute atomic data in external fields even on small