Abstract
An attempt is made to interpret /sup 28/Si neutron resonances within the framework of the Nilsson model employing the Feshback formalism. The target /sup 28/Si is described as a deformed rotator and the compound nucleus is treated in a rotator-particle coupling scheme. The model predicts only one strong resonance for both 1/2/sup -/ and 3/2/sup -/ spins and no s-wave resonance above neutron threshold. A comparison of experimental and predicted reduced-width sum for spins 3/2/sup -/ and 1/2/sup -/ up to 2 MeV neutron energy shows satisfactory agreement. (LBS)
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