Helicity dependent parton distributions

TL;DR

This paper reviews the role of helicity dependent parton distributions in understanding the spin structure of the proton through polarized deep inelastic scattering experiments, highlighting recent phenomenology and theoretical insights.

Contribution

It provides a comprehensive overview of the phenomenology and theoretical understanding of helicity dependent parton distributions in polarized DIS.

Findings

Polarized DIS offers insights into the spin structure of nucleons.

Helicity distributions are crucial for understanding proton spin composition.

The paper summarizes current theoretical models and experimental results.

Abstract

The helicity dependent parton distributions describe the number density of partons with given longitudinal momentum x and given polarization in a hadron polarized longitudinally with respect to its motion. After the discovery, more than 70 years ago, that the proton is not elementary, the observation of Bjorken scaling in the late 1960s lead to the idea of hadrons containing almost pointlike constituents, the partons. Since then, Deep Inelastic Scattering (DIS) has played a crucial role in our understanding of hadron structure. Through DIS experiments it has been possible to link the partons to the quarks, and to unveil the presence of other pointlike constituents, the gluons, which lead into a dynamical theory of quarks and gluons - quantum chromodynamics (QCD). Polarized DIS, i.e. the collision of a longitudinally polarized lepton beam on a polarized target (either longitudinally or transversely polarized), provides a complementary information regarding the structure of the nucleon. Whereas ordinary DIS probes simply the number density of partons with a fraction x of the momentum of the parent hadron, polarized DIS can partly answer the question as to the number density of partons with given x and given spin polarization in a hadron of definite polarization, either parallel or transverse with respect to the motion of the hadron. In here, the phenomenology associated with DIS off longitudinally polarized targets, and the present theoretical understanding of the dynamics involved, are described.