Non-linear Regge trajectories with AdS/QCD

Abstract

In this work, we consider a non-quadratic dilaton (z)=(\,z)2-α in the context of the static soft wall model to describe the mass spectrum of a wide range of vector mesons from the light up to the heavy sectors. The effect of this non-quadratic approach is translated into non-linear Regge trajectories with the generic form M2=a\,(n+b). We apply this sort of fits for the isovector states of ω, φ, J/ and mesons and compare with the corresponding holographic duals. We also extend these ideas to the heavy-light sector by using the isovector set of parameters to extrapolate the proper values of and α through the average constituent mass m for each mesonic specie considered. In the same direction, we address the description of possible non-q\,q candidates using m as a holographic threshold, associated with the structure of the exotic state, to define the values of and α. We study the π1 mesons in the light sector, and the Zc, Y and Zb mesons in the heavy sector as possible exotic vector states. Finally, the RMS error for describing these twenty-seven states with fifteen parameters (four values for and α respectively and seven values for m) is 12.61\%.