Charge-state correlated cross sections for single-and multiple-electron removal processes
(capture and ionization) in proton-H 2 O collisions are calculated by using the …

A classical description of electron-emission differential ionization cross sections for highly
charged high-velocity ions (∼ 10 au) impinging on water molecules is presented. We …

Electron capture from molecular targets impacted by swift ions, H+, He 2+, Li 3+ and C 6+, is
investigated in the framework of the quantum-mechanical continuum distorted wave-Eikonal …

The practical aspects of the concept of hadron therapy began in 1946 when Wilson
published a short paper in a medical journal, Radiology [1](see also [2]). Therein, he …

We present a simple and efficient method for computing single and double ionization cross
sections in ion-atom and ion-molecule collisions using L 2 Gaussian basis sets. Gaussian …

Proton collisions with water molecules are analyzed at impact energies ranging from 20 keV
to several MeV to distinguish fragmentation patterns in collisions involving capture and …

Two nonperturbative methods are applied to obtain total and singly differential (in the
electron energy) cross sections of electron emission in proton collisions with H 2 O at impact …

H+-H 2 O collisions are investigated using the time-dependent density-functional theory
combined with the molecular dynamics method, in which the electrons are described …

We calculate electron capture and ionization cross sections of N 2 impacted by the H+
projectile at keV energies. To this end, we employ the time-dependent density-functional …

Electron loss in proton–water collisions is studied in the energy range 100 keV< E< 1 MeV
by employing a three-center model potential. The electron-loss probabilities are calculated …