The axial charges of proton within an extended chiral constituent quark model
Abstract
We have performed a study of the isovector, octet and singlet axial charges of the proton in an extended chiral constituent quark model, where all the possible uudqq~(q=u,d,s) five-quark Fock components in the proton wave function are taken into account. The 3P0 quark-antiquark creation mechanism is assumed to account for the transition coupling between three- and five-quark components in proton, and the corresponding transition coupling strength is fixed by fitting the intrinsic sea flavor asymmetry d-u data for proton. Accordingly, with all the parameters fixed by empirical values, the probabilities of the intrinsic five-quark Fock components in proton wave function should be 30 - 50\%, which lead to the numerical results for quark spin u, d and s, as well the axial charges of proton consistent with the experimental data and predictions by other theoretical approaches.
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