Abstract
Abstract The angular distributions of states excited in the reaction 94 Mo(p,t) 92 Mo at E p = 40 MeV are measured. Values of the angular momentum transfers L and the spectroscopic enhancement factors are extracted by means of a zero-range DWBA calculation. Several new J π assignments are made. The strongly excited states are attributed to 1p-1h and 2p-2h neutron states. Lower-lying proton configuration states are weakly excited. Good agreement is obtained with a calculation which describes the excitation of these proton states through particular components in the 94 Mo g.s. wave function. The long predicted 0 + state in 92 Mo at 2.5 MeV is identified. A 0 + pairing vibrational state has been located at 3.85 MeV. The possible existence of 2 + , 4 + , 3 − and 5 − pairing vibrational states is discussed.
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