Abstract
The nuclear structure of $^{97}\mathrm{Tc}$ was studied using the $^{96}\mathrm{Mo}$${(}^{3}$He,pn\ensuremath{\gamma}) reaction, which has populated most states in the nucleus below 2 MeV excitation energy. The proton exit channel was isolated from competing reaction channels by operating \ensuremath{\gamma}-ray detectors in coincidence with a large-solid-angle proton detector. The experiments included \ensuremath{\gamma}-ray excitation functions, \ensuremath{\gamma}-ray angular distributions, and \ensuremath{\gamma}-\ensuremath{\gamma} coincidences. The results were interpreted using a particle-rotor model. \textcopyright{} 1996 The American Physical Society.
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