Optical isotope shifts of80,82Sr from coincidence laser spectroscopy
- 1 September 1986
- journal article
- letter
- Published by IOP Publishing in Journal of Physics G: Nuclear Physics
- Vol. 12 (9) , L205-L210
- https://doi.org/10.1088/0305-4616/12/9/003
Abstract
The isotope shifts of radioactive 80,82Sr have been measured by a new, ultrasensitive, laser fluorescence technique. The results have been used to calculate the following changes in nuclear charge radii: delta (r2)84,82=+0.060(8) and delta (r2)82,80=+0.065(9). These values, together with those of nearby stable isotopes, are discussed in terms of changes in the static and dynamic nuclear deformations.Keywords
This publication has 13 references indexed in Scilit:
- Influence of theN=50shell closure on mean square charge radii of strontiumPhysical Review C, 1985
- First experiments and future prospects at the Daresbury On-Line Isotope SeparatorHyperfine Interactions, 1985
- Isotope shifts in transitions between low-lying levels of Sr I by laser-atomic-beam spectroscopyThe European Physical Journal A, 1984
- Doppler-free optogalvanic spectroscopy of 88,86Sr I and IIOptics Communications, 1982
- Atomic masses and nuclear ground-state deformations calculated with a new macroscopic-microscopic modelAtomic Data and Nuclear Data Tables, 1981
- Nuclear data sheets for A = 84Nuclear Data Sheets, 1979
- High-resolution laser spectroscopy in fast beamsOptics Communications, 1976
- Changes in mean-square nuclear charge radii from optical isotope shiftsAtomic Data and Nuclear Data Tables, 1974
- Nuclear transition probability, B(E2), for 0g.s.+ – 2first+ transitions and deformation parameter, β2Nuclear Data Sheets. Section A, 1965
- Die Isotopieverschiebung zwischen den geraden Sr-Isotopen 84,86, 88 und 90 und der Sprungim Kernvolumeneffekt bei der Neutronenzahl 50The European Physical Journal A, 1961