The nucleus 47y has been studied using the 47Ti(p, ny)47y reaction, with isotopically enriched 47Ti targets, incident proton energies from 4·7 to 5·4 MeY, and Ge(Li) y-ray detectors. The previously unreported y-decay of the second excited state was observed. Energies of the first seven excited states were deduced to be 87· 5 ±0·1, 145· 7 ±O· 2, 259'6±0'4, 660·1 ±O' 3, 1138· 3 ±0'4, 1272'2±0'4 and 1295·1 ±0'4 keY. Their y-decay branching ratios were measured. The lifetimes of the last four mentioned states were deduced from attenuated Doppler shifts to be 680~~:go, 96O~!Jgo, 390~ ~~g and > 750 fs respectively. Angular distribution measurements resulted in the assignment of In = 9/2-to the 1272 keY level and J = 9/2 or 11/2 to the 1295 keY level. The results are discussed in the light of the Coriolis-coupling model.
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