β-delayedγ-ray spectroscopy of203,204Au and200−202Pt

Authors :: Zhi Liu
S. Verma
P. J. Woods
S. Pietri
A. B. Garnsworthy
Robert Hoischen
J. Grebosz
H. Alvarez-Pol
J. Gerl
A. M. Denis Bacelar
I. Kojouharov
N. Alkhomashi
L. Caceres
M. E. Estévez-Aguado
A. I. Morales
G. Benzoni
I. J. Cullen
R. Kumar
S. J. Steer
P. Boutachkov
J. Benlliure
F. Molina
H. Schaffner
W. Prokopowicz
Alison Bruce
A. Blazhev
A. Algora
Stanislav Tashenov
B. Rubio
S. Lalkovski
P. H. Regan
D. Mücher
J. J. Valiente-Dobón
W. Gelletly
H. J. Wollersheim
Atsushi Tamii
Yoshitaka Fujita
Enrique Casarejos
P. Doornenbal
P. M. Walker
M. Górska
H. Grawe
N. Kurz
G. F. Farrelly
Zs. Podolyák
C. Mihai
Source :: Physical Review C. 88
Publication Year :: 2013
Publisher :: American Physical Society (APS), 2013.
Abstract: The beta decay of five heavy, neutron-rich nuclei, Pt-203,Pt-204 and Ir200-202, has been investigated following relativistic cold fragmentation reactions of lead projectiles using the FRS + RISING setup at GSI. This paper reports on the study of the low-lying states in the decay daughter nuclei Au-203,Au-204 and Pt200-202. The characteristic gamma rays for each nucleus have been determined using beta-delayed gamma-ray spectroscopy. Tentative level schemes, relative intensities, and apparent beta feedings are provided. These data are compared with shell-model calculations, which indicate a substantial contribution to the total beta strength from high-energy first-forbidden beta-decay transitions in this mass region.