Electron- and proton-impact excitation of hydrogenlike uranium in relativistic collisions

The K shell excitation of H-like uranium (U(91+)) in relativistic collisions with different gaseous targets has been studied at the experimental storage ring at GSI Darmstadt. By performing measurements with different targets as well as with different collision energies, we were able to observe for...

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Bibliographic Details
Published in:Physical review letters 2013-05, Vol.110 (21), p.213201-213201, Article 213201
Main Authors: Gumberidze, A, Thorn, D B, Fontes, C J, Najjari, B, Zhang, H L, Surzhykov, A, Voitkiv, A, Fritzsche, S, Banaś, D, Beyer, H, Chen, W, DuBois, R D, Geyer, S, Grisenti, R E, Hagmann, S, Hegewald, M, Hess, S, Kozhuharov, C, Märtin, R, Orban, I, Petridis, N, Reuschl, R, Simon, A, Spillmann, U, Trassinelli, M, Trotsenko, S, Weber, G, Winters, D F A, Winters, N, Yu, D, Stöhlker, Th
Format: Article
Language:English
Subjects:
Condensed Matter
Physics
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Summary:The K shell excitation of H-like uranium (U(91+)) in relativistic collisions with different gaseous targets has been studied at the experimental storage ring at GSI Darmstadt. By performing measurements with different targets as well as with different collision energies, we were able to observe for the first time the effect of electron-impact excitation (EIE) process in the heaviest hydrogenlike ion. The large fine-structure splitting in H-like uranium allowed us to unambiguously resolve excitation into different L shell levels. State-of-the-art calculations performed within the relativistic framework which include excitation mechanisms due to both protons (nucleus) and electrons are in good agreement with the experimental findings. Moreover, our experimental data clearly demonstrate the importance of including the generalized Breit interaction in the treatment of the EIE process.
ISSN:0031-9007
1079-7114
1079-7114
DOI:10.1103/physrevlett.110.213201