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• W2125195887 abstract "Excited states in $^{55}mathrm{V}$ and $^{55}mathrm{Cr}$ have been populated via $mathit{pn}$ and $2n$ evaporation channels, respectively, following the fusion of a $^{48}mathrm{Ca}$ beam at 172 MeV with a $^{9}mathrm{Be}$ target. Level schemes have been deduced for the two nuclides to excitation energies of 7467 ($^{55}mathrm{V}$) and 12226 keV ($^{55}mathrm{Cr}$), with spins of 27/${2}^{+}$ and 33/${2}^{+}$, respectively. Negative-parity states are compared with shell-model calculations using three different effective interactions in the full $mathit{fp}$ model space. Negative-parity levels of $^{55}mathrm{Cr}$ are explained in terms of single-particle $mathit{fp}$-shell configurations outside $N=28$ and $N=32$ cores. Positive-parity states in both isotopes show evidence for the involvement of neutron ${g}_{9/2}$ configurations. In the case of $^{55}mathrm{Cr}$, a quasirotational structure based on the 1/${2}^{+}$[440] Nilsson orbital is observed up to the terminating state. In $^{55}mathrm{V}$, positive-parity states do not exhibit well-developed collective features, and the observation of octupole decays is an indication of their importance in transitions from neutron ${g}_{9/2}$ configurations to the $mathit{fp}$ shell. Experimental results are compared with the predictions of a traditional shell model, the projected shell model, and total-Routhian-surface calculations." @default.
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• W2125195887 date "2011-06-07" @default.
• W2125195887 modified "2023-10-16" @default.
• W2125195887 title "Single-particle and collective structures inCr55andV55" @default.
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• W2125195887 doi "https://doi.org/10.1103/physrevc.83.064305" @default.
• W2125195887 hasPublicationYear "2011" @default.
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