A Computer Test of Holographic Flavour Dynamics II

Yuhma Asano; Veselin G. Filev; Samuel Kov\'a\v{c}ik; Denjoe O'Connor

arXiv:1612.09281·hep-th·November 14, 2018

A Computer Test of Holographic Flavour Dynamics II

Yuhma Asano, Veselin G. Filev, Samuel Kov\'a\v{c}ik, Denjoe O'Connor

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TL;DR

This paper uses lattice simulations to study the mass susceptibility in a holographically dual D0/D4 system, confirming gravity dual predictions at finite temperature.

Contribution

It provides the first lattice simulation results for the mass susceptibility in the Berkooz-Douglas model, validating holographic duality predictions.

Findings

01

Excellent agreement with gravity dual predictions

02

Finite temperature behavior matches theoretical expectations

03

First lattice results for this holographic system

Abstract

We study the second derivative of the free energy with respect to the fundamental mass (the mass susceptibility) for the Berkooz-Douglas model as a function of temperature and at zero mass. The model is believed to be holographically dual to a D0/D4 intersection. We perform a lattice simulation of the system at finite temperature and find excellent agreement with predictions from the gravity dual.

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