Structure of 46,47Ca from the β- decay of 46,47K in the framework of nuclear shell model

Abstract

In the present work, we report a comprehensive theoretical study of the ft values for the allowed and forbidden β- decay transitions of 46K and 47K corresponding to recently available experimental data from the GRIFFIN spectrometer at TRIUMF-ISAC [Phys. Rev. C 100, 054327 (2019); Phys. Rev. C 102, 054314 (2020)]. We perform the nuclear shell-model calculation in sdpf-valence space, with the SDPF-MU interaction, to calculate low-lying energy spectra of 46,47K and 46,47Ca. For further investigation, we also calculate spectroscopic properties of 46,47K, 46,47Ca and compare the results with the experimental data. We suggest spin-parity of several levels, which were previously tentative, in both the calcium isotopes. Based on the energy and ft values, we conclude that the state at 3.984 MeV in 46Ca could be either 3- or 2+ and a state at 4.432 MeV might be 3-. The spin-parity of the states at 2.875, 3.951 and 4.453 MeV are predicted to be 1/2-, 3/2- and 1/2- or 1/2+, respectively, in 47Ca. We also give the confirmation to spin-parity of 2.850, 3.889 and 4.606 MeV states for 47Ca. Our results of level schemes of 46,47K are in a reasonable agreement with the experimental data, while the agreement of calculated ft values for the β- decay with the experimental data is limited.