Simulation and Parameterization of Longitudinal Development in Extensive Air Showers for Different Hadronic Interaction Models

Abstract

The simulation analysis of the Extensive Air Showers (EAS) was executed by exploring the longitudinal development employing the AIRES system (version 19.04.00) for several hadronic interaction models (SIBYLL, QGSJET, and EPOS) for high energies. The simulation was performed for different high energies (1017, 1018, and 1019) eV and two dissimilar primary particles, proton as well iron nuclei, with several zenith angles values (0o, 10o, and 30o). The shower size of longitudinal development was parameterized using the sigmoidal function (Boltzmann model) and gave a new four parameters as functions of the primary energy between the energy extent (1017-1019) eV. The comparison among the acquired results data (the parameterized number of shower particles) along with the experimental results (Pierre Auger experiment) had offered a fascinating matching for the primary proton at the fixed primary energy 1019 eV for vertical EAS showers.