Positronium formation cross section for positron–lithium collisions

Positron scattering by hydrogen atom is an interesting system to test theoretical methods due to its simplicity. Recently, theoretical calculations have reported differential cross sections (DCS) for positronium (Ps) formation for this system. The present work utilises the coupled-channel optical me

Cross sections differential with respect to energy and angle of ejected positrons and electrons for Ps(1s) fragmentation in collision with He, Ne, Ar, Kr and Xe targets are reported. For Ne, Ar, Kr and Xe, only the case where the target is not excited (target elastic collisions) is considered. For H

We have computed cross sections for complex formation in H + OH collisions as a function of initial translational energy and OH vibrational and rotational state. The translational energy curve rises from a threshold below 0.2 eV to a maximum near 0.3 eV, then declines exponentiauy. The initial OH vi

The formation of positronium in collisions of positrons with atoms is studied by means of different Distorted-Wave descriptions. We observe that even though some of these models manage to describe the available experimental data on an arbitrary scale, they do not show the same degree of consistency

A method for the determination of cross sections for gas-phase protein ions, based on the energy loss of ions as they pass through a collision gas, is described. A simple model relates the energy loss to the number of collisions and hence the cross section. Results from a Monte Carlo model that supp