Electron transfer and ionization in collisions of He-like ions with Na(3s) and Na(3p)

“…Furthermore, the initialization of the electron orbits restricted to the different planes relative to the projectile's incident velocity allowed determining state-selective electron capture cross sections and line emission cross sections on oriented Na * (3p) targets and analyzing their impact velocity dependence [112,113]. More recently, this methodology successfully reproduced the longitudinal and transverse recoil ion momentum distributions measured at KVI by means of their magneto-optical trap recoil ion momentum spectroscopy (MOTRIMS) device [114]. Moreover, an oscillatory structure detected at low-impact energies in the experimental transverse recoil ion distributions has been correctly reproduced with this model and ascribed to electron oscillations around the potential saddle position [115][116][117].…”

Collisional Classical Dynamics at the Quantum Scale

“…Furthermore, the initialization of the electron orbits restricted to the different planes relative to the projectile's incident velocity allowed determining state-selective electron capture cross sections and line emission cross sections on oriented Na * (3p) targets and analyzing their impact velocity dependence [112,113]. More recently, this methodology successfully reproduced the longitudinal and transverse recoil ion momentum distributions measured at KVI by means of their magneto-optical trap recoil ion momentum spectroscopy (MOTRIMS) device [114]. Moreover, an oscillatory structure detected at low-impact energies in the experimental transverse recoil ion distributions has been correctly reproduced with this model and ascribed to electron oscillations around the potential saddle position [115][116][117].…”

Collisional Classical Dynamics at the Quantum Scale