Neutrinos Unveil Ghostly Secrets of the Milky Way
Scientists have detected high-energy neutrinos originating from within our Milky Way galaxy, a groundbreaking discovery that could open up new avenues of research. Neutrinos are extremely difficult to detect as they rarely interact with atoms. The study used the IceCube Neutrino Observatory, the first gigaton neutrino detector ever built, to analyze 10 years of data and identify high-energy neutrinos likely coming from the Milky Way's galactic plane. The findings suggest that IceCube will need upgrades to pinpoint the sources of these neutrinos and further enhance its sensitivity. This discovery could provide valuable insights into cosmic rays, their origin, and the properties of our host galaxy.
- Scientists find 'ghost particles' spewing from our Milky Way galaxy in landmark discovery (video) Space.com
- This is what our Milky Way galaxy looks like when viewed with neutrinos Ars Technica
- 'Ghost particle' image is the 1st view of our galaxy in 'anything other than light' Livescience.com
- Drexel Physicists Produce New Images of Milky Way Galaxy Drexel University
- Neutrinos Build a Ghostly Map of the Milky Way The New York Times
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