Formation and decay of a hollow atom during the interaction of a slow highly charged ion with a solid surface.
Hollow atoms (discovered in 1990 by a French team of researchers around Jean-Pierre Briand) are short-lived multiply excited neutral atoms which carry a large part of their Z electrons (Z ... projectile nuclear charge) in high-n levels while inner shells remain (transiently) empty. The hollow atoms are exotic atomic species whose all, or most, electrons lie in excited states, while the innermost shells are empty.[1] These atomic species were first observed during the interaction of highly charged ions with surfaces.[2]population inversion arises for typically 100 femtoseconds during the interaction of a slow highly charged ion (HCI) with a solid surface. Despite this limited lifetime, the formation and decay of a hollow atom can be conveniently studied from ejected electrons and soft X-rays, and the trajectories, energy loss and final charge state distribution of surface-scattered projectiles. For impact on insulator surfaces the potential energy contained by hollow atom may also cause the release of target atoms and -ions via potential sputtering and the formation of nanostructures on a surface.
^Briand, J. -P; Le Roux, V; Béchu, N; Dreuil, S; Machicoane, G; Prior, M; Xie, Z (3 June 1999). "The hollow atoms". Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 154 (1–4): 166–173. Bibcode:1999NIMPB.154..166B. doi:10.1016/S0168-583X(99)00192-5. Retrieved 4 June 2022.
