Flavor structure of the unpolarized and longitudinally-polarized sea-quark distributions in the nucleon

TL;DR

This paper uses the chiral quark soliton model to analyze the flavor structure of unpolarized and polarized sea-quark distributions in the nucleon, revealing correlations and asymmetries relevant to nonperturbative QCD dynamics.

Contribution

It provides a unified theoretical analysis of both unpolarized and polarized sea-quark distributions within the flavor SU(3) chiral quark soliton model, highlighting correlations and asymmetries.

Findings

Identifies flavor asymmetries in sea-quark distributions.

Explores particle-antiparticle asymmetry of strange quarks.

Analyzes charge-symmetry-violation effects in PDFs.

Abstract

It is now widely recognized that a key to unravel the nonperturbative chiral-dynamics of QCD hidden in the deep-inelastic-scattering observables is the flavor structure of sea-quark distributions in the nucleon. We analyze the flavor structure of the nucleon sea in both of the unpolarized and longitudinally polarized parton distribution functions (PDFs) within a single theoretical framework of the flavor SU(3) chiral quark soliton model (CQSM), which contains only one adjustable parameter $\Delta m_s$, the effective mass difference between the strange and nonstrange quarks. A particular attention is paid to a nontrivial correlation between the flavor asymmetry of the unpolarized and longitudinally polarized sea-quark distributions and also to a possible particle-antiparticle asymmetry of the strange quark distributions in the nucleon. We also investigate the charge-symmetry-violation (CSV) effects in the parton distribution functions exactly within the same theretical framework, which is expected to provide us with valuable information on the relative importance of the asymmetry of the strange and antistrange distributions and the CSV effects in the valence-quark distributions inside the nucleon in the resolution scenario of the so-called NuTeV anomaly in the extraction of the Weinberg angle.