Single and double electron capture from He byAr16+studied using cold-target recoil-ion momentum spectroscopy

Abstract

Single and double electron capture from He targets by ${\mathrm{Ar}}^{16+}$ ions have been studied at projectile velocities from 0.3 to 1.5 a.u. Cold-target recoil-ion momentum spectroscopy was used to record the energy gain and scattering angle simultaneously. For single capture, the reaction window is found to spread in width approximately as the square root of the projectile velocity and to shift slightly toward smaller energy-gain values as the velocity increases. The angular distributions center at the half Coulomb angle over most of the velocity range covered, but differ in shape from multichannel Landau-Zener model results. For double capture, transfer ionization dominates and feeds primarily $n$-symmetric states, where n is the principal quantum number. True double capture feeds mainly $n$-asymmetric states. The angular distributions for double capture lie outside the half Coulomb angle, indicating the importance of two-step processes in populating doubly excited states.