利用冰立方探测宇宙不育中微子背景

Bhavesh Chauhan, Priyank Parashari
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引用次数: 0

摘要

在本文中,我们仔细研究了TeV--PeV能天体物理中微子与假想的宇宙无菌中微子背景之间的相互作用。这些相互作用产生了天体物理中微子频谱中的吸收特征,也称为 "凹点",我们利用冰立方探测器中高能起始事件(HESE)的沉积能量分布对其进行了研究。我们在之前分析的基础上进行了改进,加入了再生和现实源分布对天体物理中微子传播的影响。我们使用了最新的 7.5 年 HESE 数据集,并将格拉肖共振观测纳入了我们的分析。我们评估了这些凹陷对推断的光谱指数和整个物理中微子归一化的影响。我们发现在300-800 TeV范围内存在轻微的倾角偏好,不育中微子和媒介质量的最佳拟合参数分别为0.5 eV和23 MeV。我们发现,加入这些吸收特征后,天体物理中微子的光谱指数降低到了2.60^{+0.19}_{-0.16}$。较低的光谱指数可以减少与 Northern Tracks 样本之间的差异,但需要进行专门的分析。我们还为 IceCube-Gen2 预测了两种不同拟合的事件谱。
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Probing the cosmic sterile-neutrino background with IceCube
In this paper, we take a close look at the interaction between the TeV--PeV energy astrophysical neutrinos and a hypothetical cosmic sterile-neutrino background. These interactions yield absorption features, also called ``dips", in the astrophysical neutrino spectrum, which are studied using the deposited energy distribution of high-energy starting events (HESE) in the IceCube detector. We improve upon the previous analysis by including the effects of regeneration and a realistic source distribution on the propagation of astrophysical neutrinos. We use the latest 7.5-year HESE dataset and include the observation of Glashow resonance in our analysis. We evaluate the impact of these dips on the inferred spectral index and overall normalization of the astrophysical neutrinos. We find a mild preference for dips in the 300--800 TeV range, and the best-fit parameters for the mass of sterile-neutrino and the mediator are 0.5 eV and 23 MeV, respectively. We find that the inclusion of these absorption features lowers the spectral index of astrophysical neutrinos to $2.60^{+0.19}_{-0.16}$. The lower spectral index can reduce the disagreement with the Northern Tracks sample but requires dedicated analysis. We also forecast the event spectrum for IceCube-Gen2 for the two different fits.
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