Vanishing Gamow-Teller Transition Rate for A=14 and the Nucleon-Nucleon Interaction in the Medium

Abstract

The problem of the near vanishing of the Gamow-Teller transition (GT) in the A=14 system between the lowest J=0+~ T=1 and J=1+~ T=0 states is revisited. The model space is extended from the valence space (p-2) to the valence space plus all 2 ω excitations. The question is addressed as to what features of the effective nucleon-nucleon interaction in the medium are required to obtain the vanishing GT strength in this extended space. It turns out that a combination of a realistic strength of the tensor force combined with a spin-orbit interaction which is enhanced as compared to the free interaction yields a vanishing GT strength. Such an interaction can be derived from a microscopic meson exchange potential if the enhancement of the small component of the Dirac spinors for the nucleons is taken into account.

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