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Possible experimental signature of octupole correlations in the 0$^+_2$ states of the actinides

$J^π$= 0$^+$ states have been investigated in the actinide nucleus ${}^{240}$Pu up to an excitation energy of 3 MeV with a high-resolution (p,t) experiment at $E_{p}$= 24 MeV. To test the recently proposed $J^π$= 0$^+_2$ double-octupole structure, the phenomenological approach of the spdf-interacting boson model has been chosen. In addition, the total 0$^+$ strength distribution and the $0^+$ strength fragmentation have been compared to the model predictions as well as to the previously studied (p,t) reactions in the actinides. The results suggest that the structure of the 0$^+_2$ states in the actinides might be more complex than the usually discussed pairing isomers. Instead, the octupole degree of freedom might contribute significantly. The signature of two close-lying 0$^+$ states below the 2-quasiparticle energy is presented as a possible manifestation of strong octupole correlations in the structure of the 0$^+_2$ states in the actinides.

preprint2013arXivOpen access
M. SpiekerD. BucurescuJ. EndresT. FaestermannR. HertenbergerS. PascuS. SkalackiS. WeberH. -F. WirthN. -V. ZamfirA. Zilges
nucl-exnucl-th
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M. SpiekerD. BucurescuJ. EndresT. FaestermannR. HertenbergerS. PascuS. SkalackiS. WeberH. -F. WirthN. -V. ZamfirA. Zilges

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