Abstract
The location of a second ${2}^{+}$ state has been found for thirteen even-even medium-weight nuclei by means of Coulomb excitation produced by 8-, 9-, and 10-Mev $\ensuremath{\alpha}$ particles. The relatively weak excitation of these states is detected by a coincident measurement of the cascade gamma rays. From the observed gamma-ray yields, information is obtained on the $B(E2)'\mathrm{s}$ for the crossover transitions. The cross over $B(E2)'\mathrm{s}$ exhibit some uniformity and are all rather weak, being about single-particle value or a little less. For some nuclei the cascades/crossovers ratio for the second ${2}^{+}$ state is known from other work, and it is then possible to extract the $B(E2)$ for the upper cascade transition. These upper cascade $B(E2)'\mathrm{s}$ exhibit enhancements comparable to those for the lower cascade transitions. Evidence is obtained for the "double $E2$" Coulomb excitation of the ${4}^{+}$ state in ${\mathrm{Cd}}^{114}$ and this requires an enhanced $4\ensuremath{\rightarrow}2B(E2)$. In general, the measurements reported support a collective model interpretation, but it is as yet difficult to draw conclusions concerning the shape of the collective potential energy surface governing this motion.
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