Holographic light-front QCD

TL;DR

This paper reviews the key aspects of light-front holographic QCD, highlighting its approach to color confinement, applications in hadron spectroscopy, form factors, parton distributions, and connections to entanglement entropy.

Contribution

It introduces the integration of the QCD confinement scale into light-front holographic QCD using graded superconformal algebra and summarizes recent applications.

Findings

Effective modeling of hadron spectra

Insights into parton distributions and form factors

Connections between entanglement entropy and scattering

Abstract

This brief review presents the key components of light-front holographic quantum chromodynamics (HLFQCD). Particular attention is given to the introduction of the QCD color confinement scale within the context of a graded superconformal algebra. A concise overview of applications is provided, including spectroscopy, form factors, parton distributions of hadrons, and the relationship between entanglement entropy and high-energy scattering. While many other recent applications of HLFQCD exist in the literature, they are not included in this short overview of our latest work.