Ultra-high Energy Predictions of Proton-Air Cross Sections from Accelerator Data: an Update

Abstract

At s = 57 7 TeV, the Pierre Auger Observatory (PAO) collaboration has recently measured the proton-air inelastic production cross section σ p-air. Assuming a helium contamination of 25%, they subtracted 30 mb from their measured value, resulting in a p-air inelastic production cross section, σ p-air=475 22\ ( stat.)2015 \ ( syst.) mb, exclusive of helium contamination. Using this result in a Glauber calculation to obtain the pp inelastic cross section, they found the inelastic pp cross section σ inel= 90 7\ ( stat.) 911 ( syst.) 1.5 \ (Glaub.) mb. Parameterization of the pp and pp cross sections incorporating analyticity constraints and unitarity has allowed us to make accurate extrapolations to ultra-high energies, and using Glauber calculations, accurately predict cosmic ray results for . In this update for 57 TeV, we predict i) a pp total cross section, σ tot=133.4 1.6 mb, using high energy predictions from a saturated Froissart bound parameterization of accelerator data on forward pp and pp scattering amplitudes and ii) a p-air inelastic production cross section, σ p-air=483 3 mb, by using σ tot together with Glauber theory, allowing us to determine independently that the helium contamination was 19%, in reasonable agreement with their estimate of 25%. Our predictions agree with all available cosmic ray extensive air shower measurements, both in magnitude and in energy dependence. By using our value for the pp total cross section at 57 TeV, Block and Halzen blackdisk have predicted that the pp inelastic cross section is σ inel= 92.9 1.6 mb, in agreement with the measured POA value.