IceCube's Neutrino Map Reveals Ghostly Particles in the Milky Way
The IceCube Collaboration has created a map of high-energy neutrino emissions from the Milky Way, revealing that our galaxy produces far fewer neutrinos than many distant galaxies. Neutrinos are tiny, massless particles that come from galactic and cosmic sources, as well as cosmic ray interactions with Earth's atmosphere. The team of scientists faced challenges in sifting out the sparse numbers of high-energy neutrinos from galactic sources due to background noise. The findings raise questions about why the Milky Way lacks these particles and where the high-energy sources exist. Further analysis by IceCube is expected to shed light on the particle accelerators in our galaxy.
- IceCube Makes a Neutrino Map of the Milky Way Universe Today
- High-energy 'ghost particles' detected in Milky Way by IceCube Neutrino Observatory VideoFromSpace
- Scientists Find Ghostly Neutrino Particles From the Milky Way Smithsonian Magazine
- IceCube Detects High-Energy Neutrino Emission from Milky Way’s Galactic Plane Sci.News
- First 'ghost particle' image of the Milky Way stuns scientists and stargazers alike ZME Science
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