Description of the triple-Regge region with a very large triple-Pomeron coupling and a bare Pomeron

Abstract

A description of data in the triple-Regge region up to CERN ISR energies is proposed. The description utilizes a very large $\mathrm{PPP}$ (triple-Pomeron) coupling ${g}_{P}$ and assumes that the or unrenormalized Pomeron controls the region near $x=1$. The Pomeron intercept is ${\stackrel{^}{\ensuremath{\alpha}}}_{0}=0.85$. One secondary term is employed to extend the description to $x=0.7$. This term is chosen to be of the form $\ensuremath{\pi}\ensuremath{\pi}P$. We use a modified ABFST (Amati-Bertocchi-Fubini-Stanghellini-Tonin) model to roughly constrain ${g}_{P}$ and ${\stackrel{^}{\ensuremath{\alpha}}}_{0}$. The number of unconstrained parameters otherwise is one. Other phenomenological applications utilizing the bare Pomeron as the definition of diffraction at intermediate energies are discussed, and the total cross section with and without diffraction is discussed in the context of the ABFST model.