Abstract
SynopsisOne of the aims of the SPARC collaboration [1] at FAIR is to perform precision atomic physics experiments with highly charged heavy ions at the High Energy Storage Ring (HESR). An internal target is indispensably an integral part for many such experiments. Ions with different charge states, which are obtained as a result of interaction of an ion beam with the target, need to be effectively separated and detected. In this work we present ion optical studies unambiguously showing the feasibility of SPARC experiments at the HESR.
Highlights
In this work we present ion optical studies unambiguously showing the feasibility of SPARC experiments at the High Energy Storage Ring (HESR)
The SPARC collaboration at FAIR [1] aims at atomic physics research with highly charged ions (HCI) in energy domains previously not accessible for precision experiments [2,3]
The missing dipole concept in the HESR enables an installation of internal target stations [4] in two arcs (ROI 1 and 2) [5]
Summary
The SPARC collaboration at FAIR [1] aims at atomic physics research with highly charged ions (HCI) in energy domains previously not accessible for precision experiments [2,3]. Synopsis One of the aims of the SPARC collaboration [1] at FAIR is to perform precision atomic physics experiments with highly charged heavy ions at the High Energy Storage Ring (HESR). An internal target is indispensably an integral part for many such experiments.
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