Nucleon structure functions and longitudinal spin asymmetries in the chiral quark constituent model

Abstract

We have analysed the phenomenological dependence of the spin independent (F1p,n and F2p,n) and the spin dependent (g1p,n) structure functions of the nucleon on the the Bjorken scaling variable x using the unpolarized distribution functions of the quarks q(x) and the polarized distribution functions of the quarks q(x) respectively. The chiral constituent quark model (), which is known to provide a satisfactory explanation of the proton spin crisis and related issues in the nonperturbative regime, has been used to compute explicitly the valence and sea quark flavor distribution functions of p and n. In light of the improved precision of the world data, the p and n longitudinal spin asymmetries (A1p(x) and A1n(x)) have been calculated. The implication of the presence of the sea quarks has been discussed for ratio of polarized to unpolarized quark distribution functions for up and down quarks in the p and n up(x)up(x), dp(x)dp(x), un(x)un(x), and dn(x)dn(x). The ratio of the n and p structure functions Rnp(x)=F2n(x)F2p(x) has also been presented. The results have been compared with the recent available experimental observations. The results on the spin sum rule have also been included and compared with data and other recent approaches.