А. Д. Панов scite author profile

Galactic cosmic rays consist of protons, electrons and ions, most of which are believed to be accelerated to relativistic speeds in supernova remnants. All components of the cosmic rays show an intensity that decreases as a power law with increasing energy (for example as E(-2.7)). Electrons in particular lose energy rapidly through synchrotron and inverse Compton processes, resulting in a relatively short lifetime (about 10(5) years) and a rapidly falling intensity, which raises the possibility of seeing the contribution from individual nearby sources (less than one kiloparsec away). Here we report an excess of galactic cosmic-ray electrons at energies of approximately 300-800 GeV, which indicates a nearby source of energetic electrons. Such a source could be an unseen astrophysical object (such as a pulsar or micro-quasar) that accelerates electrons to those energies, or the electrons could arise from the annihilation of dark matter particles (such as a Kaluza-Klein particle with a mass of about 620 GeV).

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Energy spectra of abundant nuclei of primary cosmic rays from the data of ATIC-2 experiment: Final results

Панов

Adams

Ahn

et al. 2009

Bull. Russ. Acad. Sci. Phys.

367

298

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-The final results of processing the data from the balloon-born experiment ATIC-2 (Antarctica, 2002(Antarctica, -2003 for the energy spectra of protons and He, C, O, Ne, Mg, Si, and Fe nuclei, the spectrum of all particles, and the mean logarithm of atomic weight of primary cosmic rays as a function of energy are presented. The final results are based on improvement of the methods used earlier, in particular, considerably increased resolution of the charge spectrum. The preliminary conclusions on the significant difference in the spectra of protons and helium nuclei (the proton spectrum is steeper) and the non-power character of the spectra of protons and heavier nuclei (flattening of carbon spectrum at energies above 10 TeV) are confirmed. A complex structure of the energy dependence of the mean logarithm of atomic weight is found.

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Elemental energy spectra of cosmic rays from the data of the ATIC-2 experiment

Панов

Adams

Ahn

et al. 2007

Bull. Russ. Acad. Sci. Phys.

121

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Energy spectra of abundant cosmic-ray nuclei in the NUCLEON experiment

Grebenyuk

Karmanov

Kovalev

et al. 2019

Advances in Space Research

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Untitled

Teterin

Ryzhkov

Teterin

et al. 2002

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А. Д. Панов

An excess of cosmic ray electrons at energies of 300–800 GeV

Energy spectra of abundant nuclei of primary cosmic rays from the data of ATIC-2 experiment: Final results

Elemental energy spectra of cosmic rays from the data of the ATIC-2 experiment

Energy spectra of abundant cosmic-ray nuclei in the NUCLEON experiment

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