Can We Understand High Energy Cosmic-Ray Spectra on the Basis of the Scaling Hypothesis?
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概要
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Using the essential point of Feynman's hadronic scaling hypothesis, we have made a calculation of atmospheric cosmic-ray spectra, i.e., spectra of muons, hadrons and electromagnetic component. The results are compared with emulsion chamber data on the three components. In doing so, various factors related to the primary cosmic-ray spectrum are carefully examined. It is shown that the scaling feature of particle production in the entire energy region (up to several times 10^<16>eV) is compatible with the data only when one assumes i) very large inelastic cross-sections (〜380 mb for p-air collisions) and ii) the steepening of the (proton equivalent) primary cosmic-rays above several times 10^<14>eV, of which the intensity is much less than some air shower data. Another feasible way of understanding the phenomena is discussed by hypothesizing a break of the scaling feature in the fragmentation region at high energies (≳10^<14>eV).
- 理論物理学刊行会の論文
- 1976-06-25
著者
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KASAHARA Katsuaki
Institute for Cosmic Ray Research,University of Tokyo
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TAKAHASHI Yoshiyuki
Faculty of Engineering, Hiroshima University
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KASAHARA Katsuaki
Inutitute for Cosmic Ray Research, University of Tokyo
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Kasahara Katsuaki
Institute For Nuclear Study University Of Tokyo
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Takahashi Yoshiyuki
Faculty Of Engineering Science Osaka University
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Takahashi Yasuyoshi
Department of Physics, Kumamoto University
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KASAHARA Katsuaki
Faculty of Engineering, Kanagawa University
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KASAHARA Katsuaki
Institute for Nuclear Study, University of Tokyo
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KASAHARA Katsuaki
Institute for Cosmic Ray Research, University of Tokyo
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TAKAHASHI Yoshiyuki
Department of Applied Mathematics, Osaka University
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Takahashi Yoshio
Theoretical Physics Institute, Dept. of Physics, Univ. of Alberta
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