2025年2月12日，发表在《自然》杂志的一项研究揭示了一个前所未有的宇宙事件：科学家们利用位于地中海深处的立方千米中微子望远镜（KM3NeT），探测到了一个能量高达 220 PeV（百万亿电子伏）的中微子。这是人类首次捕捉到能量达数百 PeV 的中微子，为中微子天文学揭开了全新的篇章。

Could neutrinos finally reveal everything we're searching for about quantum gravity? These ghostly particles, capable of passing through matter without interacting, are at the heart of a major ...

KM3NeT确定，该中微子来自南半球天空的某个特定区域。 如果它源自于一场剧烈的宇宙爆炸或活动星系核，那么研究人员应该能用其他类型的望远镜追踪它的来源，尤其是射电望远镜，因为超新星遗迹和活跃星系核往往会发出射电信号。

In February of 2023, the Cubic Kilometer Neutrino Telescope (KM3NeT) detected a neutrino some 35 times higher in energy than any previous detection. A new study posits that this muon might be the ...

Scientists have never directly detected dark matter, but some wonder if one high-energy detection in 2023 could be a rare ...

The KM3NeT collaboration has detailed how the ARCA array—along with the Oscillation Research with Cosmics in the Abyss (ORCA) array—could provide indirect observations of dark matter similar ...

Other neutrino detectors include IceCube in the ice of Antarctica and the European observatory Cubic Kilometre Neutrino Telescope (KM3NeT), which currently consists of two large sensor fields in ...

A massive particle detected deep under the sea may be the first direct evidence of dark matter, sparking excitement and ...