Erlangen 2018 – wissenschaftliches Programm
Bereiche | Tage | Auswahl | Suche | Aktualisierungen | Downloads | Hilfe
Q: Fachverband Quantenoptik und Photonik
Q 67: Precision Spectrosocopy VII (nuclear systems) (joint session A/Q)
Q 67.6: Vortrag
Freitag, 9. März 2018, 11:45–12:00, K 1.016
Laser spectroscopy of the heaviest actinides — •S. Raeder1,2, D. Ackermann2,3, H. Backe4, M. Block1,2,4, B. Cheal6, P. Chhetri2,5, C. E. Düllmann1,2,4, M. Eibach2,7, J. Even8, R. Ferrer9, F. Giacoppo1,2, S. Götz1,2,4, F.P. Heßberger2,5, O. Kaleja2,4,10, J. Khuyagbaatar1,2, P. Kunz11, M. Laatiaoui9, F. Lautenschläger2,5, W. Lauth4, L. Lens2,4, N. Lecesne3, A. K. Mistry1,2, E. Minaya Ramirez12, Th. Walther5, A. Yakushev1,2, and Z. Zhang13 — 1Helmholtz-Institut Mainz — 2GSI — 3GANIL — 4JGU Mainz — 5TU Darmstadt — 6Uni of Liverpool — 7Universität Greifswald — 8KVI-CART, Uni of Groningen — 9KU-Leuven — 10MPIK — 11TRIUMF — 12IPNO — 13IMP Lanzhou
Laser spectroscopy of transfermium elements with Z>100 probes the influence of electron correlation, relativistic and QED effects on the atomic shell structure. These studies are hampered by low production rates and the fact that atomic information is initially available only from theoretical predictions. Applying the sensitive Radiation Detected Resonance Ionization Spectroscopy technique at the SHIP velocity filter in GSI, optical transitions in the element nobelium (Z=102) were detected for the first time. Besides the characterization of a strong optical ground-state transition in the isotopes 252,253,254No, Rydberg states were measured enabling the extraction of the first ionization potential of nobelium with a high precision. These results will be discussed as well as the prospects for future investigations involving the study of additional nobelium isotopes and the exploration of the atomic structure of the next heavier element, lawrencium (Z=103).