Diffuse Pionic Gamma-Ray Emission from Large Scale Structures in the FERMI Era
Autor: | Dobardzic, Aleksandra, Prodanovic, Tijana |
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Rok vydání: | 2012 |
Předmět: | |
Zdroj: | 2014ApJ...782..109D |
Druh dokumentu: | Working Paper |
DOI: | 10.1088/0004-637X/782/2/109 |
Popis: | For more than a decade now the complete origin of the diffuse gamma-ray emission background (EGRB) has been unknown. Major components like unresolved star-forming galaxies (making <50% of the EGRB) and blazars (<23%), have failed to explain the entire background observed by \emph{Fermi}. Another, though subdominant, contribution is expected to come from the process of large-scale structure formation. The growth of structures is accompanied by accretion and merger shocks, which would, with at least some magnetic field present, give rise to a population of structure-formation cosmic rays (SFCRs). Though expected, this cosmic-ray population is still hypothetical and only very weak limits have been placed to their contribution to the EGRB. The most promising insight into SFCRs was expected to come from \emph{Fermi}-LAT observations of clusters of galaxies, however, only upper limits and no detection have been placed. Here, we build a model of gamma-ray emission from large-scale accretion shocks implementing a source evolution calibrated with the \emph{Fermi}-LAT cluster observation limits. Though our limits to the SFCR gamma-ray emission are weak (above the observed EGRB) in some case, in others, some of our models can provide a good fit to the observed EGRB. More importantly, we show that these large-scale shocks could still give an important contribution to the EGRB, especially at high energies. Future detections of cluster gamma-ray emission would help place tighter constraints on our models and give us a better insight into large-scale shocks forming around them. Comment: Published in ApJ. Published Erratum (correction of computational error - reflects on figures and best-fit model) attached at the end |
Databáze: | arXiv |
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