Identification and lifetime determination of the6+member of the ground-state rotational band inNe22

Abstract

The ${}_{}{}^{19}{}_{}{}^{}\mathrm{F}(\alpha ,p\gamma ){}_{}{}^{22}{}_{}{}^{}\mathrm{Ne}$ reaction was used to measure $p-\gamma$ angular correlations for the 6.31 and 6.34 MeV states in ${}_{}{}^{22}{}_{}{}^{}\mathrm{Ne}$. The mean lifetimes of the two levels were determined to be 78 ± 15 fs (6.31 MeV) and ${24}_{-17\mathrm{}}^{+15\mathrm{}}$ fs (6.34 MeV) using the same reaction and the Doppler-shift attenuation method. Unambiguous spin and parity assignments of $6^{+}$ and $4^{+}$ were obtained for the 6.31 and 6.34 MeV states, respectively. An earlier identification of the 6.34 MeV state as the $6^{+}$ member of the ground state rotational band is therefore incorrect. The $B\left(E2\mathrm{}\right)\mathrm{}$ value of the 6.31 MeV ($6^{+}$) → 3.36 MeV ($4^{+}$) transition is in good agreement with recent large-basis shell model calculations, and the 6.31 MeV state may be identified as the $6^{+}$ member of the ground state rotational band of ${}_{}{}^{22}{}_{}{}^{}\mathrm{Ne}$.