Abstract
In this work we examine with the help of Monte Carlo simulation whether a consistent primary energy spectrum of cosmic rays emerges from both the experimentally observed total charged particles and muon size spectra of cosmic ray extensive air showers considering primary composition may or may not change beyond the knee of the energy spectrum. It is found that EAS-TOP observations consistently infer a knee in the primary energy spectrum provided the primary is pure unchanging iron whereas no consistent primary spectrum emerges from simultaneous use of the KASCADE observed total charged particle and muon spectra. However, it is also found that when primary composition changes across the knee the estimation of spectral index of total charged particle spectrum is quite tricky, depends on the choice of selection of points near the knee in the size spectrum.
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The authors would like to thank the anonymous reviewer for providing useful suggestions that helped us to improve the manuscript.
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Bijay, B., Banik, P. & Bhadra, A. The knee in the cosmic ray energy spectrum from the simultaneous EAS charged particles and muon density spectra. Astrophys Space Sci 361, 311 (2016). https://doi.org/10.1007/s10509-016-2897-7
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DOI: https://doi.org/10.1007/s10509-016-2897-7