SAMOP 2023 – wissenschaftliches Programm
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A: Fachverband Atomphysik
A 20: Poster II
A 20.6: Poster
Mittwoch, 8. März 2023, 16:30–19:00, Empore Lichthof
High-resolution dielectronic recombination spectroscopy with slow cooled Be-like Pb78+ ions at CRYRING@ESR — S. Fuchs1,2, C. Brandau1,3, E. B. Menz3,4,5, M. Lestinsky3, A. Borovik Jr.1, Y. N. Zhang6, Z. Andelkovic3, F. Herfurth2, C. Kozhuharov3, C. Krantz3, U. Spillmann3, M. Steck3, G. Vorobyev3, R. Hess3, V. Hannen7, D. Banaś8, M. Fogle9, S. Fritzsche4,5, E. Lindroth10, X. Ma11, A. Müller1, R. Schuch10, A. Surzhykov12,13, M. Trassinelli14, Th. Stöhlker3,4,5, Z. Harman15, and •S. Schippers1,2 — 1JLU Gießen — 2HFHF Campus Gießen — 3GSI — 4HI Jena — 5FSU Jena — 6Xi’an Jiaotong University — 7WWU Münster — 8JKU Kielce — 9Auburn University — 10Stockholm University — 11IMPCAS Lanzhou — 12TU Braunschweig — 13PTB — 14INSP Paris — 15MPIK
Dielectronic recombination (DR) spectroscopy is a very successful and widely used technique to study the properties of highly charged ions. Its high precision and versatility make it an important spectroscopic tool in the physics program of the SPARC collaboration. The heavy-ion storage ring CRYRING@ESR of the international FAIR facility in Darmstadt is a very attractive machine for performing DR spectroscopy because of its electron cooler that is equipped with an ultra-cold electron beam promising highest experimental resolving power and because of the extreme versatility of the storage ring ESR as its injector. Here, we report on the first DR experiment with highly charged ions at this new facility. The comparison between experiment and theory shows that the resolving power is according to the expectations.