Abstract
The properties of muons (>or=1 GeV) in giant air showers between 1016.5 eV and 1019.5 eV are measured by the Akeno 1 km2, 20 km2 and 100 km2 air shower arrays. The lateral distribution of muons is well fitted by the formula given by Greisen (1960) with parameters beta =2.52+or-0.02 and log(R0)=(0.58+or-0.04) (sec theta -1)+(2.39+or-0.05) between 1016.5 eV and 1019.0 eV within 800 m of the air shower axis, where theta is the zenith angle of the shower arrival direction. The relation between the total number of muons (Nmu ) and the total number of electrons (Ne) derived using these parameters is expressed on average as Nmu =(2:6+or-1.3)*105.0+ alpha (Ne/107)b where alpha =(1.07+or-0.13) (sec theta -1) and b=(0.77+or-0.02)-(0.17+or-0.02) (sec theta -1). The lateral distribution of muons becomes steeper than expected from extrapolation of the above formula for core distances >800 m and is expressed as rho mu =Nmu (C'mu /R02)r-0.75 (1+r)- beta (1+(R/800 m)3)- delta (r=R/R0, where R is a core distance). No deviation from this formula has been observed for sec theta <2.0 up to 1019.0 eV. The relation between the muon density (S(600)) and the charged-particle density on the ground at 600 m from the core (S(600)) is studied between 1016.5 eV and 1019.0 eV. A systematic change in the chemical composition of cosmic rays from a predominantly heavy to a predominantly light composition above 1017.5 eV claimed by the Fly's Eye group has not been detected beyond the present experimental uncertainties. The present experiment suggests a much smaller rate of change of composition between 1017.5 eV and 1018.5 eV than that from the Fly's Eye experiment.
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More From: Journal of Physics G: Nuclear and Particle Physics
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