Axial and triaxial degrees of freedom in 72Zn

Authors :: S. Hellgartner
D. Mücher
K. Wimmer
V. Bildstein
J.L. Egido
R. Gernhäuser
R. Krücken
A.K. Nowak
M. Zielińska
C. Bauer
M.L.L. Benito
S. Bottoni
H. De Witte
J. Elseviers
D. Fedorov
F. Flavigny
A. Illana
M. Klintefjord
T. Kröll
R. Lutter
B. Marsh
R. Orlandi
J. Pakarinen
R. Raabe
E. Rapisarda
S. Reichert
P. Reiter
M. Scheck
M. Seidlitz
B. Siebeck
E. Siesling
T. Steinbach
T. Stora
M. Vermeulen
D. Voulot
N. Warr
F.J.C. Wenander
Source :: Physics Letters B, Vol 841, Iss , Pp 137933- (2023)
Publication Year :: 2023
Publisher :: Elsevier, 2023.
Abstract: The unstable N=42 nucleus 72Zn has been studied using multiple safe Coulomb excitation in inverse kinematics. The experiment was performed at the REX-ISOLDE facility at CERN making first use of the silicon detector array C-REX in combination with the γ-ray spectrometer Miniball. The high angular coverage of C-REX allowed to determine the reduced transition strengths for the decay of the yrast 01+, 21+ and 41+ as well as of the 02+ and 22+ states in 72Zn. The quadrupole moments of the 21+, 41+ and 22+ states were extracted. Using model independent quadrupole invariants, the ground state of 72Zn was found to have an average deformation in the γ degree of freedom close to maximum triaxiality. In comparison to experimental data in zinc isotopes with N