Measurements of cosmic-ray air shower development at energies above 10 to the 17th eV

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Abstract

Measurements are presented of the depth of maximum for extensive air showers (EAS) produced by cosmic-ray nuclei with energies above 10 to the 17th eV. The air showers were observed using the University of Utah's Fly's Eye detectors operating in stereo mode. Measurements of the atmospheric nitrogen fluorescence light generated by EAS have been used to obtain longitudinal development curves of individual showers and, in particular, the depth of maximum of each shower. The data imply an elongation rate of 69.4 + or - 5.0 g/sq cm per decade above 10 to the 17th eV without correction for triggering and resolution effects. These effects contribute approximately +5 g/sq cm per decade to the apparent elongation rate. The distribution of depths of shower maximum has a mean value of 690 + or - 3 g/sq cm (with an estimated systematic uncertainty of + or - 20 g/sq cm) and a width (standard deviation) of 85 + or - 2 g/sq cm for showers with energies above 3 x 10 to the 17th eV. The tail of the distribution has a logarithmic decrement of lambda = 70 + or - 14 g/sq cm. Comparison with predictions for a pure proton and a pure iron flux indicates that the data are not consistent with either and are instead consistent with a mixture.

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