Abstract
A study of nonrelativistic resonating group method quark exchange kernels shows that even large changes in the relative (6) and (42) space symmetry of the six-quark system do not make significant changes in the extreme short range parts of the NN interaction. The repulsive core heights of equivalent local potentials derived by the Wentzel-Kramers-Brillouin approximation from the Wigner transform of the quark exchange kernels are changed by only approx.20% under a large change in the relative (6) and (42) space symmetry of the antisymmetrized internal six-quark resonating group method wave function.
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