Simultaneous cooling of highly charged ions with electrons and positrons

Electron cooling is a well-established technique to increase the phase space density of particle beams in storage rings. In this paper, we discuss the feasibility of electron and positron cooling of ions in a Penning trap. We calculate the cooling times for the cases of trapped bare ions with nuclea

Ion traps and storage rings provide unique experimental conditions for the study of the properties of stable or radioactive, singly or highly charged ions. Storage of the confined particles for extended periods of times and cooling are the key issues for extremely high accuracy and sensitivity. At m

The ESR storage ring offers the unique opportunity to store and cool fully stripped heavy ions up to Uranium at energies between 50 and 370 MeV/u. Measurements of the longitudinal cooling force for several ion species from C 6+ to U g2+ are presented. A pronounced deviation from the expected q2 scal

Interaction of slow highly charged ions with insulator as well as metallic surfaces is discussed. In addition to the usual flat surface targets, studies with thin foils having a multitude of straight holes of $100 nm in diameter (micro-capillary foil) are introduced, which provide various unique inf