高能中微子望远镜点源分析的层次贝叶斯方法

Francesca Capel, Julian Kuhlmann, Christian Haack, Martin Ha Minh, Hans Niederhausen and Lisa Schumacher
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摘要

我们提出了一种探测点状高能中微子源的新方法。在现有数据中出现新源的证据的激励下,我们将重点放在这些源的特征描述和解释上,而不是否定纯背景假说。分层贝叶斯模型是在 Stan 平台上实现的,可以用哈密尔顿蒙特卡洛算法计算后验分布。我们模拟了冰立方实验所探测到的弱中微子源群体,并使用由此产生的数据集来演示和验证我们的框架。我们表明,即使对于处于探测阈值的源这种具有挑战性的情况,并使用有限的先验信息,也有可能正确推断出源的属性。此外,我们还展示了如何利用类似声源之间的灵活连接建模来恢复无法单独检测到的声源的贡献。由于频数框架和贝叶斯框架存在本质区别,将我们的方法与现有方法进行直接比较面临挑战,但我们还是尽可能地总结了两者的相似之处。特别是,我们强调了在源建模中加入更多复杂性如何提高对源及其种群的敏感性。
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A Hierarchical Bayesian Approach to Point-source Analysis in High-energy Neutrino Telescopes
We propose a novel approach to the detection of point-like sources of high-energy neutrinos. Motivated by evidence for emerging sources in existing data, we focus on the characterization and interpretation of these sources rather than the rejection of the background-only hypothesis. The hierarchical Bayesian model is implemented in the Stan platform, enabling computation of the posterior distribution with a Hamiltonian Monte Carlo algorithm. We simulate a population of weak neutrino sources detected by the IceCube experiment and use the resulting data set to demonstrate and validate our framework. We show that even for the challenging case of sources at the threshold of detection and using limited prior information, it is possible to correctly infer the source properties. Additionally, we demonstrate how modeling flexible connections between similar sources can be used to recover the contribution of sources that would not be detectable individually. While a direct comparison of our method to existing approaches is challenged by the fundamental differences in frequentist and Bayesian frameworks, we draw parallels where possible. In particular, we highlight how including more complexity into the source modeling can increase the sensitivity to sources and their populations.
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