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Original scientific paper

Altitude dependence of the electromagnetic spectra initiated by primary nucleon air collisions

D. P. Bhatacharyya ; Department of Theoretical Physics, Indian Association for the Cultivation of Science, Jadavpur, Calcutta 700 032, India
R. K. Saha ; Department of Theoretical Physics, Indian Association for the Cultivation of Science, Jadavpur, Calcutta 700 032, India
R. Majumdar ; Department of Theoretical Physics, Indian Association for the Cultivation of Science, Jadavpur, Calcutta 700 032, India
M. Mitra ; Department of Theoretical Physics, Indian Association for the Cultivation of Science, Jadavpur, Calcutta 700 032, India


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Abstract

A study has been made of the altitude dependence of high-energy spectra of electromagnetic components initiated by primary cosmic nucleon – air collisions. The primary cosmic nucleon spectrum has been estimated from the directly measured elemental fluxes at high energies obtained from the recent absolute measurements by different groups. Considering the superposition model, the estimated all-particle primary nucleon spectrum follows approximately the form 2.56E−2.73 in the energy range 0.1 - 100 TeV. Taking this as the source of parent neutral mesons and the spectrum-weighted moments for neutral pion production after Aguilar Benitez et al., the neutral pion production spectrum in the atmosphere has been calculated. The generated neutral pions decay before reacting in the atmosphere. Therefore, the electromagnetic cascades are generated through π0 → 2γ decays. The unidirectional intensity of γ-rays at atmospheric depths of 540 and 735 g cm−2 air have been calculated by adopting the conventional cascade theory, discussed earlier by Bhattacharyya and Roychoudhury. The results are found comparable to the emulsion chamber data obtained at locations Mt. Chacaltaya and Mt. Norikura. We also estimated the spectra of gamma rays and electrons at Mt. Kanbala and Mt. Fuji at atmospheric depths 520 and 650 g cm−2, with the adopted value of mean free path of electromagnetic component in air as Λem ≃ 120 g cm−2 from Daniel and Stephens. It is found that our result is in accord with the experimental data obtained by Ren et al. at Mt. Kanbala while it is in approximate agreement with the observed data of Shibata et al. at Mt. Fuji.

Keywords

primary cosmic nucleon-air collisions; neutral pion production; altitude dependence; π0 → 2γ decays; intensity of γ-rays; conventional cascade theory

Hrčak ID:

303856

URI

https://hrcak.srce.hr/303856

Publication date:

1.10.2000.

Article data in other languages: croatian

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