Neutrino Constrains to the Diffuse Gamma-Ray Emission from Accretion Shocks
| Autor: | Dobardzic, Aleksandra, Prodanovic, Tijana |
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| Rok vydání: | 2014 |
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| Zdroj: | Astrophysical Journal 806, 184 (2015) |
| Druh dokumentu: | Working Paper |
| DOI: | 10.1088/0004-637X/806/2/184 |
| Popis: | Accretion of gas during the large scale structure formation has been thought to give rise to shocks that can accelerate cosmic rays. This process then results in an isotropic extragalactic gamma-ray emission contributing to the extragalactic gamma-ray background observed by the Fermi-LAT. Unfortunately this emission has been difficult to constrain and thus presents an uncertain foreground to any attempts to extract potential dark matter signal. Recently, IceCube has detected high-energy isotropic neutrino flux which could be of an extragalactic origin. In general, neutrinos can be linked to gamma rays since cosmic-ray interactions produce neutral and charged pions where neutral pions decay into gamma rays, while charged pions decay to give neutrinos. By assuming that isotropic high-energy IceCube neutrinos are entirely produced by cosmic rays accelerated in accretion shocks during the process of structure formation, we obtain the strongest constraint to the gamma-ray emission from large scale structure formation (strong) shocks and find that they can make at best ~20% of the extragalactic gamma-ray background, corresponding to neutrino flux with spectral index 2, or ~10% for spectral index 2.46. Since typical objects where cosmic rays are accelerated in accretion shocks are galaxy clusters, observed high-energy neutrino fluxes can then be used to determine the gamma-ray emission of a dominant cluster type and constrain acceleration efficiency, and thus probe the process of large scale structure formation. Comment: Published version. New neutrino data included in revised version along with other minor changes. 14 pages, 1 figure. Comments welcome |
| Databáze: | arXiv |
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