On the spectra of scalar mesons from HQCD models

Abstract

We determine the holographic spectra of scalar mesons from the fluctuations of the embedding of flavor D-brane probes in HQCD models. The models we consider include a generalization of the Sakai Sugimoto model at zero temperature and at the "high-temperature intermediate phase", where the system is in a deconfining phase while admitting chiral symmetry breaking and a non-critical 6d model at zero temperature. All these models are based on backgrounds associated with near extremal Nc D4 branes and a set of Nf<<Nc flavor probe branes that admit geometrical chiral symmetry breaking. We point out that the spectra of these models include a 0-- branch which does not show up in nature. At zero temperature we found that the masses of the mesons Mn depend on the "constituent quark mass" parameter mcq and on the excitation number n as Mn2 mcq and M2n n1.7 for the ten dimensional case and as Mn mcq and Mn n0.75 in the non-critical case. At the high temperature intermediate phase we detect a decrease of the masses of low spin mesons as a function of the temperature similar to holographic vector mesons and to lattice calculations.