Abstract

The β-delayed proton decays of 65 Ge(t 1 2 = 30.8 ± 1.0 s) and 73 Kr (t 1 2 = 28.4 ± 0.7 s) have been studied in detail, proton spectra as well as p-γ and p-X coincidences being obtained. The fraction of 65Ge β-decays populating proton-emitting states in 65Ga is measured to be (1.3 ± 0.5) × 10 −4, and the proton branch in the decay of 73Kr that populates the first excited state in 72Se is (18 ± 4)% of the total proton decay. Average γ-widths at 5.5 MeV excitation have been established to be 200±60 meV in 65Ga and 320±60 meV in 73Br. Values for Q EC− B P are measured to be 2300±100 keV for 65Ge decay and 3700±150 keV for 73Kr. The data for both decays have been subjected to statistical model analysis with considerable success. The back-shifted Fermi gas model gives better results for level densities than the Gilbert and Cameron formulas, although important numerical results extracted from the data are shown to be independent of the details of analysis. No evidence is found for local structure in the β-decay strength function. A J π assignment of 5 2 + ( or possibly 7 2 +) for 73Kr gives best agreement with the data.

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