Neutrinos, with little mass and no charge, are exceptional cosmic messengers, traversing the universe largely undetected. Their ability to travel long distances without interference makes them invaluable for probing high-energy astrophysical phenomena. Modern astronomy has focused on neutrino observation, which requires large-scale detectors. IceCube, the premier detector located beneath the Antarctic ice, uses 5,000 lights to detect rare neutrino interactions, demonstrating the innovative methods astronomers employ to unlock the mysteries of the universe.
Neutrinos fly straight and true through galaxies and across billions of light years, making them a clear window into enigmatic intergalactic events.
To detect neutrinos, astronomers build enormous detectors like IceCube, which uses 5,000 light detectors in deep holes to capture elusive interactions.
Collection
[
|
...
]