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Communication Dans Un Congrès Année : 2021

A local fading accelerator and the origin of TeV cosmic ray electrons

Sarah Recchia
  • Fonction : Auteur
Felix Aharonian
  • Fonction : Auteur
Jacco Vink

Résumé

The cosmic ray electron spectrum exhibits a break at a energy of ∼ 1 TeV and extends without any attenuation up to ∼ 20 TeV. Energy losses strongly constrain the time of emission of ∼ 20 TeV electrons to ≈ 2 × 104 yr and the distance of the potential source(s) to ≈ 100 − 500 pc, depending on the cosmic ray diffusion coefficient. This suggests that maybe a single nearby source may dominate the multi-TeV electron spectrum. Here we show that a local source of age ≈ 105 yr, that continuously inject electrons with a fading luminosity (on timescales of ∼ 104 yr), can naturally explain the entire spectrum of cosmic ray electrons in the TeV domain. Despite a nearby pulsar may easily explain the fading profile, the drop of the positron fraction above ∼ 400 − 500 GeV, make such scenario problematic. Supernova remnants accelerate mostly electrons, rather than positrons, but they can hardly provide a fading injection. A third class of potential are stellar wind shocks, which however are likely to have a constant luminosity on timescales >> 10 kyr and probably cannot match the time requirement of our potential source. Therefore, the identification of the potential source(s) of multi-TeV electrons probably requires a profound revision of the present paradigms of acceleration and escape in such objects.

Dates et versions

hal-03373056 , version 1 (11-10-2021)

Identifiants

Citer

Sarah Recchia, Stefano Gabici, Felix Aharonian, Jacco Vink. A local fading accelerator and the origin of TeV cosmic ray electrons. 37th International Cosmic Ray Conference, Jul 2021, Berlin, Germany. pp.168, ⟨10.22323/1.395.0168⟩. ⟨hal-03373056⟩
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