The physics of highly-charged ions (HCI), the most abundant form of visible matter in the Universe, is of particular interest for fundamental as well as practical reasons in astrophysical and earth-bound plasmas. Recently, considerable progress has been made in the investigation of their static electronic structure as well as of the dynamics when they interact with matter due to newly-developed technologies, storage-rings and traps, making them routinely avail-able for experiments. Within this grant application it is proposed to combine, for the first time, three innovative technologies to advance our knowledge of basic dynamic processes in heavy-ion atom collisions as well as of their electronic structure to unprecedented detail: (i) a magneto-optical trap will provide an ultra-cold and well confined target in a (ii) “Reaction Microscope” allowing to determine the momenta of all target fragments both implemented in (iii) present and next-generation cooler ion storage rings like the ESR at the present GSI, the planned NESR at the upcoming FAIR facility or the TSR delivering beams of utmost intensity and quality.

DFG-Verfahren Emmy Noether-Nachwuchsgruppen

Großgeräte Laser 670 nm for laser-cooling and re-pumping

Gerätegruppe 5790 Sonstige Laser und Zubehör (außer 570-578)