English

Proton spin in double-logarithmic approximation

High Energy Physics - Phenomenology 2025-03-14 v3 High Energy Physics - Experiment

Abstract

Proton is a composite particle, so its spin S_P is made from the spins of the partons which the proton consists of. The discrepancy between S_P = 1/2 and the experimentally detected sum of the parton spins was named Proton Spin Puzzle. Solution to this problem includes formulae for the parton helicities valid in the whole range of x. There are approaches in the literature for calculating the helicities. As a theoretical basis they apply different evolution equations. Despite these equations are constructed for operating in widely different regions of x and account for different contributions, all of them equally well suited for solving the proton spin problem. Our explanation of this situation is that the main impact on values of the parton spin contributions should be brought not by the evolution equations themselves but by phenomenological fits for initial parton distributions. We suggest a more theoretically grounded approach to description of the parton helicities and apply it to solving the proton spin problem. It combines the total resummation of double logarithms (DL), accounting for the running coupling effects and DGLAP formulae, leading to expressions for the helicities valid at arbitrary x. As a consequence, the set of involved phenomenological parameters in our approach is minimal and its in uence on the helicity behaviour is weak. We apply our approach to solve the proton spin problem in the straightforward way and make an estimate, demonstrating that the RHIC data complemented by the DL contributions from the regions of x beyond the RHIC scope are well compatible with the value S_P = 1/2.

Keywords

Cite

@article{arxiv.2402.16385,
  title  = {Proton spin in double-logarithmic approximation},
  author = {B. I. Ermolaev},
  journal= {arXiv preprint arXiv:2402.16385},
  year   = {2025}
}

Comments

14 pages, 3 figures. Some issues are written in more detail and provided with comprehensive explanation

R2 v1 2026-06-28T14:59:56.807Z