Isospin symmetry of ω meson in the soft-wall model of holographic QCD at finite temperature

Abstract

Coupling constants of - and ω- meson-nucleon are related with each other by isospin relation. In present work, it is aimed at studying the violation (if it exists) of isospin symmetry of the ω-meson and to study the temperature dependence of ω-meson-nucleon-delta and ω-meson-delta coupling constants using the soft-wall model of holographic QCD. Firstly, the coupling constants are obtained by applying the profile functions of the vector and fermion fields to the model at a finite temperature. The interaction Lagrangian is written, including the minimum and magnetic interactions of vector and fermion fields which is defined in the bulk of the 5-dimensional AdS space-time. Secondly, the temperature dependence of the coupling constants gω N N(T), gω (T) and gω N (T) has been plotted. Comparing gω N N(T) with the coupling constant g NN(T), it obtained that the isospin symmetry of the omega meson is not violated at the finite temperature. It is also observed that the coupling constants of the ω vector meson with baryons decreases with increasing temperature, and this coupling constant becomes zero near the Hawking phase transition temperature.