Noncritical Holographic QCD in External Electric Field

TL;DR

This paper studies a noncritical holographic QCD model under external electric fields, analyzing its phase structure and conductivity, and comparing results with other holographic models and lattice simulations.

Contribution

It introduces a noncritical holographic QCD model to analyze phase structure and conductivity under external electric fields, providing comparative insights with established models.

Findings

Conductivity behavior similar to D3-D7 system with respect to temperature and density.

Phase diagram resembles Sakai-Sugimoto model.

Provides insights into noncritical holographic QCD under external electric fields.

Abstract

We investigate behavior of a noncritical model in external electric field and explore its phase structure in the quenched approximation N_f>> N_c. We compute the conductivity of QCD plasma in this model and compare it with the predictions of Sakai-Sugimoto model, D3-D7 system and the lattice simulation. We find that, while the behavior of conductivity in noncritical model as a function of temperature and baryon density is similar to those of D3-D7 system, the phase diagram of noncritical model resembles the phase diagram of Sakai-Sugimoto model.