银河系磁场中超高能宇宙射线的大尺度各向异性和通量(去)放大率

Teresa Bister, Glennys R. Farrar and Michael Unger
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摘要

我们用一套新的银河系磁场(GMF)模型计算了超高能宇宙射线(UHECR)的到达方向分布,假定源头遵循宇宙的大尺度结构。与以前的银河磁场模型相比,UHECR到达通量的偶极子分量的振幅明显减小。我们发现,振幅减小的原因是银河系外 UHECR 通量峰值的位置与银河系中心区域因 GMF 而产生的强通量消磁边界意外重合。UHECR 各向异性对 GMF 模型的这种偶然的敏感性将是对源分布以及银河系和银河系外磁场的有力探测。全球磁场的消磁作用也会影响一些热门候选源的可见度。
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The Large-scale Anisotropy and Flux (de)magnification of Ultrahigh-energy Cosmic Rays in the Galactic Magnetic Field
We calculate the arrival direction distribution of ultrahigh-energy cosmic rays (UHECRs) with a new suite of models of the Galactic magnetic field (GMF), assuming sources follow the large-scale structure of the Universe. Compared to previous GMF models, the amplitude of the dipole component of the UHECR arrival flux is significantly reduced. We find that the reduction is due to the accidentally coinciding position of the peak of the extragalactic UHECR flux and the boundary of strong flux demagnification due to the GMF toward the central region of the Galaxy. This serendipitous sensitivity of UHECR anisotropies to the GMF model will be a powerful probe of the source distribution as well as Galactic and extragalactic magnetic fields. Demagnification by the GMF also impacts the visibility of some popular source candidates.
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