Strongly interacting matter from holographic QCD model

TL;DR

This paper presents a 5D dynamical holographic QCD model that captures hadron spectra, phase transitions, and transport properties, providing insights into strongly interacting matter using a graviton-dilaton-scalar framework.

Contribution

Introduction of a novel 5D dynamical holographic QCD model incorporating graviton, dilaton, and scalar fields to study non-perturbative QCD phenomena.

Findings

Accurate hadron spectra including glueballs and light mesons

Insights into QCD phase transitions

Analysis of transport properties in strongly interacting matter

Abstract

We introduce the 5-dimension dynamical holographic QCD model, which is constructed in the graviton-dilaton-scalar framework with the dilaton background field $\Phi$ and the scalar field $X$ responsible for the gluodynamics and chiral dynamics, respectively. We review our results on the hadron spectra including the glueball and light meson spectra, QCD phase transitions and transport properties in the framework of the dynamical holographic QCD model.