Direct Evidence of Octupole Deformation in Neutron-Rich Ba-144
- Bucher, B.
- Zhu, S.
- Wu C., Y.
- Janssens R. V., F.
- Cline, D.
- Hayes A., B.
- Albers, M.
- Ayangeakaa A., D.
- Butler P., A.
- Campbell C., M.
- Carpenter M., P.
- Chiara C., J.
- Clark J., A.
- Crawford H., L.
- Cromaz, M.
- David H., M.
- Dickerson, C.
- Gregor E., T.
- Harker, J.
- Hoffman C., R.
- Kay B., P.
- Kondev F., G.
- Korichi, A.
- Lauritsen, T.
- Macchiavelli A., O.
- Pardo R., C.
- Richard, A.
- Riley, M., A.
- Savard, G.
- Scheck, M.
- Seweryniak, D.
- Smith M., K.
- Vondrasek, R.
- Wiens, A.
DOIAbstract
International audienceThe neutron-rich nucleus Ba-144 (t(1/2) = 11.5 s) is expected to exhibit some of the strongest octupole correlations among nuclei with mass numbers A less than 200. Until now, indirect evidence for such strong correlations has been inferred from observations such as enhanced E1 transitions and interleaving positive- and negative-parity levels in the ground-state band. In this experiment, the octupole strength was measured directly by sub-barrier, multistep Coulomb excitation of a post-accelerated 650-MeV Ba-144 beam on a 1.0-mg/cm(2) Pb-208 target. The measured value of the matrix element, = 0.65((+17)(-23)) eb(3/2,) corresponds to a reduced Bd(E3) transition probability of 48((+25)(-34)) W.u. This result represents a...
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