Abstract
The 25Mg(3He, alpha )24Mg reaction has been studied at an incident energy of 18 MeV. Forty-six states in 24Mg have been identified up to an excitation of 12.051 MeV including a new state at 9.650 MeV. Absolute spectroscopic factors extracted from the DWBA analysis of the measured exhausted (79%) for 24Mg states below 12 MeV. Using the rotational model, theoretical spectroscopic factors have been calculated and then compared with the experimentally derived values. Nilsson configurations associated with known positive and negative parity rotational bands are suggested. The isobaric analogue states at 9.980 and 10.070 MeV are identified as the 1+ and 2+ member states of the Kpi =1+, T=1 rotational band based on the 5/2+(202)3/2+(211) configuration.
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