Pion Phenomenology from the Thermal Soft-Wall Model of Holographic QCD

Abstract

Within the framework of the thermal soft-wall model of AdS/QCD, we investigate phenomenological properties of pions at finite temperature. This includes the electromagnetic (EM) form factor Fπ(Q2, T), the thermal mass Mπ(T), charge radius rπ(T), the generalized parton distribution (GPD) Hπ(x, Q2, T), the charge density π(b, T) of the pion, the pion-nucleon coupling constant gπ NN(T), and pion- baryon coupling constant gπ (T) coupling constant at finite temperature. The thermal pion form factor is extrapolated from the zero-temperature case. Subsequently, the GPD is obtained at finite temperature from this form factor. The above-mentioned quantities were analyzed using a thermal dilaton field in the five-dimensional AdS action. Moreover, we determine the theoretical expression for the temperature-dependent pion-nucleon coupling constant, and the pion- baryon coupling constant using thermal profile functions of the nucleon, baryon and the pion. Our results show that the values of these quantities decrease with increasing temperature and vanish near the critical temperature Tc; except for the pion radius, which diverges at Tc. Our results reproduce expected features of low-energy hadron dynamics, thus validating the phenomenological utility of the thermal soft-wall model.