Family of dilatons and metrics for AdS/QCD models

TL;DR

This paper investigates methods to derive metrics and dilaton fields for AdS/QCD models that accurately reproduce mesonic spectra and implement chiral symmetry breaking, using supersymmetric quantum mechanics and interpolation techniques.

Contribution

It introduces two novel procedures for constructing dilatons and metrics in AdS/QCD models to better match physical phenomena.

Findings

Successful derivation of metrics and dilatons that reproduce mesonic spectra

Implementation of chiral symmetry breaking in AdS/QCD models

Comparison of two different construction methods

Abstract

We explore some possibilities for obtaining useful metrics and dilatons for AdS/QCD models. As a guideline, we consider dilatons and/or metrics that on the one hand reproduce the mesonic spectrum, and that on the other hand allow us a correct implementation of chiral symmetry breaking in AdS/QCD models. We discuss two procedures: one is based on supersymmetric quantum mechanics techniques and the other considers the interpolation between some limits on dilatons and/or metrics.