Abstract
The 48Ti(τ, p) 50V reaction has been studied at 15 MeV incident energy using a multiangle spectrograph. Ninety-eight transitions up to 8.58 MeV in excitation have been identified, and many of the corresponding proton angular distributions measured. The distribution shapes together with DW calculations allow the assignment of a number of new spin and parity values. The results of the present work are compared with other data on 50V. The isobaric spin (τ, p) intensity relations are applied to O + → O + transitions to T = 2 and T = 3 states in 50V, and it is found that the T = 2 level takes up less than 1 4 of the expected anti-analog strength. The O + → 1 + ( τ, p) transition strength is found to be ≈ 3 times larger than possible within an f-p configuration space.
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