Galactic Cosmic Ray Acceleration with Steep Spectra

R. Diesing, D. Caprioli
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Abstract

Galactic cosmic rays (CRs) are accelerated by astrophysical shocks, primarily supernova remnants (SNRs), via diffusive shock acceleration (DSA), an efficient mechanism that predicts power-law energy distributions of CRs. However, observations of both nonthermal SNR emission and Galactic CRs imply CR spectra that are steeper than the standard DSA prediction, ∝ −2. Recent kinetic hybrid simulations suggest that such steep spectra may be the result of a “postcursor”, or drift of CRs and magnetic structures with respect to the thermal plasma behind the shock. Using a semi-analytic model of non-linear DSA, we generalize this result to a wide range of astrophysical shocks. By accounting for the presence of a postcursor, we produce CR energy distributions that are substantially steeper than −2 and consistent with observations. Our formalism reproduces both modestly steep spectra of Galactic SNRs (∝ −2.2) and the very steep spectra of young radio supernovae (∝ −3).
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具有陡峭光谱的银河系宇宙射线加速
银河系宇宙射线(CRs)被天体物理冲击加速,主要是超新星遗迹(SNRs),通过扩散冲击加速(DSA),一种有效的机制,预测CRs的幂律能量分布。然而,对非热信噪比发射和银河系CR的观测表明,CR光谱比标准DSA预测更陡峭,∝−2。最近的动力学混合模拟表明,如此陡峭的光谱可能是“后光标”的结果,或者是CRs和磁结构相对于激波后的热等离子体的漂移。利用非线性DSA的半解析模型,我们将这一结果推广到大范围的天体物理冲击。考虑到后光标的存在,我们得出的CR能量分布比−2陡得多,与观测结果一致。我们的形式再现了银河系信噪比的中等陡峭光谱(∝−2.2)和年轻射电超新星的非常陡峭光谱(∝−3)。
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