Parity-violating π N N coupling constant in the chiral quark-soliton model
Abstract
We investigate the parity-violating π NN Yukawa coupling constant h1π NN within the framework of the SU(2) chiral quark-soliton model, based on the S=0 effective weak Lagrangian derived within the same framework. We find that the parity-violating π NN coupling constant is about 1×10-8 at the scale of 1 GeV. The results of hπ NN1 turn out to be sensitive to the Wilson coefficient. We discuss how the gluonic renormalization supresses the parity-violating π NN coupling constant.
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