ATLAS measured charged-particle production in 9.62 TeV p-O collisions, yielding a fiducial pO cross section of 396 mb and extrapolated p-air inelastic cross section of 406 mb, with distributions an order of magnitude more precise than hadronic model differences.
Albrecht et al., Global tuning of hadronic interaction models with accelerator-based and astroparticle data, Nat
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Monte Carlo simulations show radio interferometry reconstructs average Gaisser-Hillas parameters of air shower profiles with enhanced separation of primary masses and hadronic models compared to fluorescence profiles.
Updated Xmax measurements reveal a transition to heavier cosmic-ray mass composition above 10^18.4 eV with decreasing elemental diversity.
citing papers explorer
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Measurement of charged-particle production in $\sqrt{s_\text{NN}}=9.62$ TeV proton-oxygen collisions as a probe of cosmic-ray air showers with the ATLAS detector
ATLAS measured charged-particle production in 9.62 TeV p-O collisions, yielding a fiducial pO cross section of 396 mb and extrapolated p-air inelastic cross section of 406 mb, with distributions an order of magnitude more precise than hadronic model differences.
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Average universal shower profile reconstruction using radio interferometry
Monte Carlo simulations show radio interferometry reconstructs average Gaisser-Hillas parameters of air shower profiles with enhanced separation of primary masses and hadronic models compared to fluorescence profiles.
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Depth of Maximum of Air-Shower Profiles above 10^17.7 eV Measured with the Fluorescence Detector of the Pierre Auger Observatory
Updated Xmax measurements reveal a transition to heavier cosmic-ray mass composition above 10^18.4 eV with decreasing elemental diversity.