The description of experimental data on energy and angular distributions of electrons produced in intermediate-energy proton collisions with H 2 has remained an insurmountable …
Differential studies of the proton-helium scattering problem using the two-center wave- packet convergent close-coupling approach is extended to the calculation of the ionization …
The recently developed two-centre wave-packet convergent close-coupling approach to proton collisions with molecular hydrogen is applied to calculate various singly differential …
We extend the two-centre wave-packet convergent close-coupling approach to doubly differential ionisation in proton collisions with H2 to intermediate projectile energies. The …
The two-center wave-packet convergent close-coupling method is generalized to multiply charged ion collisions with helium and applied to the He 2+-He scattering problem. The …
The wave-packet convergent close-coupling (WP-CCC) approach is applied to calculate the energy spectrum of electrons ejected in p+ H 2 collisions as a function of the scattering …
Integrated total and state-selective electron-capture cross sections are calculated for bare beryllium ion scattering on atomic hydrogen initially configured in the 2 ℓ m states (where n …
The two-center wave-packet convergent close-coupling approach is extended to model dressed ion collisions with atomic hydrogen. This is done by reducing the problem to an …
The differential He 2+ 3-He scattering problem is investigated using the two-center wave- packet convergent close-coupling method in the incident energy range of 50–630 keV/u …