Abstract
Recoil-ion momentum distributions, measured in coincidence with the final projectile momentum transverse to the beam direction, have been investigated in order to obtain information on the sum momentum of the ejected electrons for the multiple ionization and capture reaction: 0.53 MeV u-1 F6++Ne to F5++Neq++(q-1)e-. For close collisions, at projectile polar scattering angles between 0.1<or= theta <or=1 mrad, the many-particle momentum exchange (emitted electrons, projectile and target recoil ion) was strongly dominated by the momentum transfer between the nuclei for Ne final charge states q=5 and 6. In accordance with theoretical results in the n CTMC and the semiclassical quantum statistical (ionization channel) approaches, the projectile azimuthal and polar scattering is to a large extent compensated by the transverse momentum transfer to the recoil ion.
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