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Klein–Nishina Effect and the Cosmic Ray Electron Spectrum

Kun Fang, Xiao-Jun Bi, Su-Jie Lin, Qiang Yuan

2021Chinese Physics Letters36 citationsDOIOpen Access PDF

Abstract

Radiative energy losses are very important in regulating the cosmic ray electron and/or positron (CRE) spectrum during their propagation in the Milky Way. Particularly, the Klein–Nishina (KN) effect of the inverse Compton scattering (ICS) results in less efficient energy losses of high-energy electrons, which is expected to leave imprints on the propagated electron spectrum. It has been proposed that the hardening of CRE spectra around 50 GeV observed by Fermi-LAT, AMS-02, and DAMPE could be due to the KN effect. We show in this work that the transition from the Thomson regime to the KN regime of the ICS is actually quite smooth compared with the approximate treatment adopted in some previous works. As a result, the observed spectral hardening of CREs cannot be explained by the KN effect. It means that an additional hardening of the primary electrons spectrum is needed. We also provide a parameterized form for the accurate calculation of the ICS energy-loss rate in a wide energy range.

Topics & Concepts

PhysicsCosmic rayElectronPositronSpectral lineCompton scatteringEnergy spectrumInverseAtomic physicsHardening (computing)ScatteringElectron scatteringRadiationSpectral shape analysisAstrophysicsNuclear physicsParameterized complexityEnergy (signal processing)Computational physicsWork (physics)Spectrum (functional analysis)COSMIC cancer databaseLow energyX-rayDark Matter and Cosmic PhenomenaAstrophysics and Cosmic PhenomenaRadiation Therapy and Dosimetry
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