Phenomenological Analyses on Hadronic Cross-Sections at High and Asymptotic Energies

Abstract

Quantum Chromodynamics constitutes the quantum field theory of the strong interaction. Despite the success of this theory in the description of several hadronic processes, the elastic scattering is still a theoretical challenge. This process is characterized by a small transferred momentum and the perturbative techniques are not applicable. Although nonperturbative results have been obtained in recent years, we still do not have a full description within QCD of the quantities related to the elastic scattering, for example, σtot, the parameter and σel. In this thesis, the main interest is in the energy dependence of the ratio X=σel/σtot, σtot and . These topics are divided into three different studies. In the first topic, we develop an empirical analysis on the ratio X. By means of parameterizations with a small number of free parameters, we have obtained good descriptions of the data on pp and pp scattering. We conclude that the asymptotic black-disk scenario is not a unique solution and the results favour a grey-disk scenario. In the second topic, we study the rise of σtot with the energy through parameterizations based on the Regge-Gribov formalism and we consider two options for the leading term: a log-square and a log-raised-to-γ, with γ a free fit parameter. We discuss two analytic methods to connect the real and imaginary parts of the amplitude: Derivative Dispersion Relations (DDR) and Asymptotic Uniqueness, which lead to different parameterizations for σtot and . The results favour the DDR method in both formal and practical contexts. In the third topic, two sub-leading terms for σtot, obtained in a nonperturbative QCD approach, are considered in fits to pp and pp data and also in fits to data from meson-baryon and other baryon-baryon scattering.