Precision experiments with time-resolved Schottky mass spectrometry

Authors :: Yu. N. Novikov
F. Nolden
G. Mu¨nzenberg
M. Steck
Hans Geissel
F. Bosch
Yu. A. Litvinov
C. Scheidenberger
B. Franzke
Th. Kerscher
Christophor Kozhuharov
Torsten Radon
K. Beckert
Hermann Wollnik
Zygmunt Patyk
H.-J. Kluge
F. Attallah
Marc Hausmann
K.E.G. Lo¨bner
M. Falch
O. Klepper
Source :: Nuclear Physics A. 734:473-476
Publication Year :: 2004
Publisher :: Elsevier BV, 2004.
Abstract: A large area on the mass surface of neutron-deficient nuclides (36≤Z≤85) was measured with time-resolved Schottky mass spectrometry at the FRS-ESR facilities. The masses of 114 nuclides were obtained for the first time from which 43 were determined via known decay energies. The improved mass accuracy of 30 keV allowed to study the isospin dependence of nuclear pairing, to precisely locate the one-proton dripline for odd-Z isotopes from Tb to Pa and to make crucial tests of the predictive powers of modern mass models.