Direct evidence for projectile electronic structure effects in slow multielectron capture collisions

Abstract

We investigate the role of the electronic structure of the projectile in ionization and subsequent fragmentation of CO2 induced by multielectron capture in collisions at 0.31 a.u. impact velocity. Focusing on the CO23+ → O+:C+:O+ break-up channel as a representative channel, we report kinetic energy release distributions (KERDs) for collisions with equi-velocity Nq+ and Oq+ projectiles. We consider two complementary categories of measurements. In the first category, in which different projectiles of the same charge are considered, we find that KERDs obtained with Nq+ and Oq+ impact (q=4,6) are broadly similar, but they differ significantly from the earlier reported KERD with Arq+ impact. In the second category, pronounced differences are observed between the KERDs obtained with isoelectronic Nq+ and O(q+1)+ (q=3,5,7) projectiles. These results provide direct evidence that projectile electronic structure plays a critical role in multielectron capture collisions.