用冰立方的结果揭示星系TeV源的性质

IF 8.8 1区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Astrophysical Journal Letters Pub Date : 2023-10-01 DOI:10.3847/2041-8213/acff60
V. Vecchiotti, F. L. Villante, G. Pagliaroli
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引用次数: 0

摘要

冰立方合作报告了第一次对银河系盘中微子发射的高意义观测。观测到的信号可能是由于宇宙射线与星际气体相互作用产生的漫射发射,但也可能来自多种来源。在本文中,我们通过利用伽马射线观测和/或理论考虑来评估漫射和源的贡献。通过将我们的期望与冰立方的测量结果进行比较,我们限制了银河系TeV伽玛射线源(已分辨和未分辨)与强子性质的比例。为了与冰立方的结果相一致,这个比例应该很小,或者源质子能量的截止点应该远远低于宇宙射线质子的膝盖。特别是,当截止能量为500tev时,对应于1 - 100tev能量范围内的累积源通量Φ ν,s≤2.6 × 10−10 cm−2 s−1,强子源的比例应小于~ 40%。当能量截止到达宇宙射线质子膝盖约5 PeV时,这一比例降低到20%。
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Unveiling the Nature of Galactic TeV Sources with IceCube Results
Abstract IceCube collaboration reported the first high-significance observation of the neutrino emission from the Galactic disk. The observed signal can be due to diffuse emission produced by cosmic rays interacting with interstellar gas but can also arise from a population of sources. In this paper, we evaluate both the diffuse and source contribution by taking advantage of gamma-ray observations and/or theoretical considerations. By comparing our expectations with IceCube measurements, we constrain the fraction of Galactic TeV gamma-ray sources (resolved and unresolved) with hadronic nature. In order to be compatible with the IceCube results, this fraction should be small, or the source proton energy cutoff should be well below the cosmic-ray proton knee. In particular, for a cutoff energy equal to 500 TeV, the fraction of hadronic sources should be less than ∼40% corresponding to a cumulative source flux Φ ν ,s ≤ 2.6 × 10 −10 cm −2 s −1 integrated in the 1–100 TeV energy range. This fraction reduces to ∼20% for energy cutoff reaching the cosmic-ray proton knee around 5 PeV.
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来源期刊
Astrophysical Journal Letters
Astrophysical Journal Letters ASTRONOMY & ASTROPHYSICS-
CiteScore
14.10
自引率
6.30%
发文量
513
审稿时长
2-3 weeks
期刊介绍: The Astrophysical Journal Letters (ApJL) is widely regarded as the foremost journal for swiftly disseminating groundbreaking astronomical research. It focuses on concise reports that highlight pivotal advancements in the field of astrophysics. By prioritizing timeliness and the generation of immediate interest among researchers, ApJL showcases articles featuring novel discoveries and critical findings that have a profound effect on the scientific community. Moreover, ApJL ensures that published articles are comprehensive in their scope, presenting context that can be readily comprehensible to scientists who may not possess expertise in the specific disciplines covered.
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