Charge Composition of Cosmic Rays at Energies More Than 1 TeV Based on the Results of the NUCLEON Mission

Authors :: M. Merkin
D. Podorozhny
A. Sadovsky
I. Kovalev
O. Vasiliev
Andrey Turundaevskiy
A. Kurganov
V. M. Grebenyuk
A. A. Voronin
Alexander D. Panov
D. Karmanov
I. Kudryashov
L. G. Tkachev
Source :: Physics of Atomic Nuclei. 82:920-923
Publication Year :: 2019
Publisher :: Pleiades Publishing Ltd, 2019.
Abstract: The NUCLEON experiment is aimed to investigate the composition and energy spectra of high energy cosmic rays. Direct measurements of the energy spectra of cosmic ray protons and nuclei over the range of 1–100 TeV are very important for the solution of a general astrophysical problem of origin of cosmic rays. The satellite was launched on 26 December 2014. The measured charge composition is analyzed and compared with data obtained by other experiments at lower energies. The proton to helium ratio is close to constant over the wide magnetic rigidity area (3–100 TV). The charge composition dependence on magnetic rigidity can be explained by means of the single source model.

Subjects :: Physics
Nuclear and High Energy Physics
Proton
Composition dependence
Astrophysics::High Energy Astrophysical Phenomena
chemistry.chemical_element
Cosmic ray
Atomic and Molecular Physics, and Optics
Spectral line
Nuclear physics
Rigidity (electromagnetism)
chemistry
Ultra-high-energy cosmic ray
Nucleon
Helium

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