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SHAPE EVOLUTION IN HEAVIEST STABLE EVEN-EVEN MOLYBDENUM ISOTOPES STUDIED VIA COULOMB EXCITATION

Coulomb excitation Bohr model Hamiltonian (control theory)
DOI: 10.1142/s0218301311017831 Publication Date: 2011-03-28T07:09:30Z
Abstract Supplemental Material References Cited by
AUTHORS (21)
K. WRZOSEK-LIPSKA
M. ZIELIŃSKA
K. HADYŃSKA-KLȨK
Y. HATSUKAWA
J. IWANICKI
J. KATAKURA
M. KISIELIŃSKI
M. KOIZUMI
M. KOWALCZYK
H. KUSAKARI
M. MATSUDA
T. MORIKAWA
P. J. NAPIORKOWSKI
A. OSA
M. OSHIMA
D. PIȨTAK
L. PRÓCHNIAK
T. SHIZUMA
J. SREBRNY
M. SUGAWARA
Y. TOH
ABSTRACT
The quadrupole shape evolution in heaviest stable Mo isotopes is studied terms of the coexistence phenomenon occurrence this region nuclear chart. Quadrupole deformation parameters 96,98,100 low-lying (ground and excited) 0 + states were deduced using Coulomb excitation method. In all cases rich sets electromagnetic reduced matrix elements determined GOSIA code then analysed Sum Rules formalism. Discussion experimental results comparison with predictions microscopic calculations within general collective Bohr Hamiltonian model presented for 100 .
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