Abstract
The 12C( 14N, α) 22Na reaction was studied at bombarding energies between 22 and 39.2 MeV (lab) and a lab angle of 7°. Average coherence widths of states in the compound nucleus 26Al populated in the reaction were obtained from excitation functions of twenty states or unresolved multiplets measured for states in 22Na. From these data and Hauser-Feshbach predictions, values were determined for the level density parameters and for the effective moment of inertia of 26Al. The critical angular momentum for the reaction was determined by comparing ratios of cross sections for excited states of 22Na with Hauser-Feshbach predictions.
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