Abstract
High-spin states have been studied in the ${}^{97}\mathrm{Mo}$ nucleus with the reaction ${}^{82}\mathrm{Se}{(}^{19}\mathrm{F},p3n\ensuremath{\gamma})$ at 68 MeV. The main experimental result is the observation of the $\ensuremath{\nu}{h}_{11/2}$ quasiband structure up to the ${31/2}^{\ensuremath{-}}$ state at ${E}_{x}=5.5\mathrm{MeV}.$ The systematic behavior of this structure along the isotopic and isotonic sequences is presented. The structure of the ${}^{97}\mathrm{Mo}\mathrm{}$ is discussed in terms of the interacting boson-fermion model 1.
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