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Proton Structure Functions from Holographic Einstein-Dilaton Models

High Energy Physics - Theory 2025-10-28 v2 High Energy Physics - Phenomenology Nuclear Theory

Abstract

We study the proton structure functions F1F_1 and F2F_2 in the context of holography. We develop a general framework that extends previous holographic calculations of F1F_1 and F2F_2 to the case where the bulk geometry stems from bottom-up Einstein-Dilaton models, which are commonly used in the literature to describe some properties of QCD in the strong coupling regime. We focus on a choice of the dilaton potential that leads to a holographic model able to reproduce known lattice QCD results for the glueball masses at zero temperature and pure Yang-Mills thermodynamics above deconfinement. Once the parameters of the background holographic model are fixed, we introduce probe fermionic and gauge fields in the bulk {\it a la} Polchinski and Strassler to determine the corresponding structure functions. This particular realization of the model can successfully describe the proton mass and provide results for F2F_2 at large xx in very good agreement with experimental data.

Keywords

Cite

@article{arxiv.2505.13649,
  title  = {Proton Structure Functions from Holographic Einstein-Dilaton Models},
  author = {Ayrton da Cruz Pereira do Nascimento and Henrique Boschi-Filho and Jorge Noronha},
  journal= {arXiv preprint arXiv:2505.13649},
  year   = {2025}
}

Comments

31 pages, 9 figures

R2 v1 2026-07-01T02:23:16.125Z