Surface dielectric properties probed by microcapillary transmission of highly charged ions

We present a theoretical study of the energy loss of highly charged ions undergoing distant collisions at grazing incidence angles with the surface of microcapillary targets. The interaction of highly charged ions with the, internal surface of the microcapillary is treated within the framework of linear response theory. The specular reflection model and the time-dependent density functional approach are used to calculate the linear response functions. As projectiles we consider 2.1 keV/amu Kr36+ ions and as target a Ni microcapillary. For the fraction of the ion beam that does not suffer any charge exchange, the energy loss is strongly correlated with the scattering angle. The distance-dependent stopping power and thereby the surface dielectric properties of the capillary material can be probed in detail.