Isospin Mixing inZr80: From Finite to Zero Temperature

Authors :: S. Brambilla
S. Leoni
D. Bazzacco
P. Désesquelles
Stefano Riboldi
D. S. Judson
P. Reiter
O. Stezowski
G. Benzoni
Herbert Hess
R. Menegazzo
R. Avigo
F. C. L. Crespi
M. Ciemala
F. Camera
E. Farnea
M. Kmiecik
Andreas Görgen
G. Bocchi
J. J. Valiente-Dobón
F. Recchia
R. Nicolini
D. Montanari
P. A. Söderström
B. Birkenbach
J. Eberth
M. Zieblinski
V. Modamio
S. Myalski
Luna Pellegri
B. Million
A. Mentana
A. Jungclaus
S. Bottoni
C. A. Ur
W. Korten
D. R. Napoli
Ch. Theisen
N. Blasi
S. Ceruti
A. Bracco
A. Pullia
A. Giaz
A. Maj
A. Gottardo
O. Wieland
D. Mengoni
E. Sahin
M.D. Salsac
Begoña Quintana
D. Rosso
A. I. Morales
C. Michelagnoli
Source :: Physical Review Letters. 115
Publication Year :: 2015
Publisher :: American Physical Society (APS), 2015.
Abstract: The isospin mixing was deduced in the compound nucleus Zr-80 at an excitation energy of E* = 54 MeV from the gamma decay of the giant dipole resonance. The reaction Ca-40 + Ca-40 at E-beam = 136 MeV was used to form the compound nucleus in the isospin I = 0 channel, while the reaction Cl-37 + Ca-44 at E-beam = 95 MeV was used as the reference reaction. The. rays were detected with the AGATA demonstrator array coupled with LaBr3:Ce detectors. The temperature dependence of the isospin mixing was obtained and the zero-temperature value deduced. The isospin-symmetry-breaking correction delta(C) used for the Fermi superallowed transitions was extracted and found to be consistent with beta-decay data.