Spectroscopic study of 47Ca from the β- decay of 47K

Abstract

The β- decay of 47K to 47Ca is an appropriate mechanism for benchmarking interactions spanning the sd and pf shells, but current knowledge of the β--decay scheme is limited. We have performed a high-resolution, high-efficiency study of the β--decay of 47K with the GRIFFIN spectrometer at TRIUMF-ISAC. The study revealed 48 new transitions, a more precise value for the 47K half-life (17.38(3)~s), and new spin and parity assignments for eight excited states. Levels placed for the first time here raise the highest state observed in β- decay to within 568(3) keV of the Q-value and confirm the previously measured large β--decay branching ratios to the low-lying states. Previously unobserved β--feeding to 3/2+ states between 4.5 and 6.1~MeV excitation energy was identified with a total β--feeding intensity of 1.29(2)\%. The sum of the B(GT) values for these states indicates that the 1s1/2 proton hole strength near this excitation energy is comparable to the previously known 1s1/2 proton and neutron hole strengths near 2.6 MeV.