The Renormalized Tensor Interaction in a Nucleus

Abstract

We show several examples were the tensor interaction of the lowest order G matrix in a nucleus is too strong. The examples include the quadrupole moment of 6Li, the isosplitting of the lowest 0- states in 16O, the near vanishing Gamow-Teller matrix element in the weak decay of the J=0 T=1 state of 14O to the J=1 T=0 ground state of 14N, and the magnitude of the deformation of 12C. It would appear that we could get better results by decreasing the tensor interaction strength by about a factor of two. We then examine the simple estimates of Gerry Brown concerning second order tensor effects. We note that for the triplet even channel the combination of first and second order tensor does indeed yield an effective weaker tensor interaction and helps to get better agreement with experiment.