Bitte wählen Sie ihr Lieferland und ihre Kundengruppe
The authors lay out a unified formalism for the description of radiative electron capture into excited states of heavy, few-electron ions and their subsequent decay, including a full account of many-electron effects and higher-order multipoles of the radiation field. In particular, the density-matrix theory is applied to explore the magnetic sublevel population of the residual ions, as described in terms of alignment parameters. For the electron capture into the initially hydrogen-like U(91+) and lithium-like U(89+) uranium projectiles, the alignment parameters are calculated, within the multiconfiguratioii Dirac-Fock approach, as a function of the collision energy and for different ionic states. From these calculations, we find that the many-electron interactions may result in a small enhancement of the alignment, and that this effect becomes more pronounced for highly-excited levels.