Proton Structure Functions from Holographic Einstein-Dilaton Models
Abstract
We study the proton structure functions and in the context of holography. We develop a general framework that extends previous holographic calculations of and 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 at large in very good agreement with experimental data.
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