High-precision Penning trap mass measurements on the stable nuclide 27Al as well as on the short-lived radionuclides 26Al and 38,39Ca have been performed by use of radiofrequency excitation with time-separated oscillatory fields, i.e. Ramsey's method, as recently introduced for the excitation of the ion motion in a Penning trap, was applied. A comparison with the conventional method of a single continuous excitation demonstrates its advantage of up to ten times shorter measurements. The new mass values of 26,27Al clarify conflicting data in this specific mass region. In addition, the resulting mass values of the superallowed beta-emitter 38Ca as well as of the groundstate of the beta-emitter 26Al m confirm previous measurements and corresponding theoretical corrections of the ft-values.
@article{arxiv.0801.2593,
title = {Time-separated oscillatory fields for high-precision mass measurements on short-lived Al and Ca nuclides},
author = {S. George and G. Audi and B. Blank and K. Blaum and M. Breitenfeldt and U. Hager and F. Herfurth and A. Herlert and A. Kellerbauer and H. -J. Kluge and M. Kretzschmar and D. Lunney and R. Savreux and S. Schwarz and L. Schweikhard and C. Yazidjian},
journal= {arXiv preprint arXiv:0801.2593},
year = {2008}
}