Isotope Shifts in Dielectronic Recombination: From Stable to In-flight-Produced Nuclei

C. Brandau, C. Kozhuharov, A. Mueller, D. Bernhardt, S. Boehm, F. Bosch, D. Boutin, F. J. Currell, C. Dimopoulou, B. Franzke, A. Gumberidze, Z. Harman, U. D. Jentschura, C. H. Keitel, H. J. Kluge, Y. S. Kozhedub, R. Kruecken, Yu A. Litvinov, F. Nolden, B. O'RourkeR. Reuschl, S. Schippers, V. M. Shabaev, U. Spillmann, Z. Stachura, M. Steck, Th Stoehlker, I. I. Tupitsyn, D. F. A. Winters, A. Wolf

Research output: Contribution to journalArticlepeer-review

Abstract

The study of isotope shifts and hyperfine effects in dielectronic recombination (DR) resonance spectra strikes a conceptually new path for investigations of nuclear properties such as charge radius, spin, magnetic moment of nuclei or lifetimes of long-lived excited nuclear states. A series of DR experiments with heavy three-electron ions (Li-like) was performed at the heavy-ion storage ring ESR of the GSI Helmholtzzentrum für Schwerionenforschung, Darmstadt, Germany. In a pilot experiment the two stable isotopes A=142 and A=150 of neodymium ANd57+ were investigated. From the displacement of DR resonances the isotope shifts δE142,150(2s – 2Pl/2) = 40.2(3)(6) meV and δE142,150(2s – 2p3/2) = 42.3(12)(20) meV for 2s – 2Pj transitions of the Li-like ions have been obtained. An evaluation within a full QED framework yielded a change in the mean-square charge radius of 142,150δ(r2) = −1.36(1)(3) fm2. At GSI, in addition to stable isotopes, in-flight synthesized radioisotopes can be studied as well. The production of radioisotopes of interest, the subsequent separation in the storage ring ESR and first DR experiments with the exotic nuclei 237U89+ and 234Pa88+ (Z=91) are presented. The paper is concluded with a brief outlook at future DR experiments with heavy radioisotopes at the ESR.
Original languageEnglish
Number of pages9
JournalJournal of Physics Conference Series
Volume194
Issue number1
DOIs
Publication statusPublished - 2009

Research Beacons, Institutes and Platforms

  • Dalton Nuclear Institute

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