Uncertainty in mean X max from diffractive dissociation estimated using measurements of accelerator experiments

Abstract

Mass composition is important for understanding the origin of ultra-high-energy cosmic rays. However, interpretation of mass composition from air shower experiments is challenging, owing to significant uncertainty in hadronic interaction models adopted in air shower simulation. A particular source of uncertainty is diffractive dissociation, as its measurements in accelerator experiments demonstrated significant systematic uncertainty. In this research, we estimate the uncertainty in X max from the uncertainty of the measurement of diffractive dissociation by the ALICE experiment. The maximum uncertainty size of the entire air shower was estimated to be +4.0-5.6 g/cm2 for air showers induced by 1017 eV proton, which is not negligible in the uncertainty of X max predictions.