The IceCube neutrino observatory, situated at the Earth's South Pole, is a large-scale detector designed to detect neutrinos, subatomic particles known for their infrequent interaction with matter. It's maintained by the IceCube Collaboration, a network of universities worldwide, led by the University of Wisconsin-Madison.
IceCube comprises thousands of sensors embedded deep beneath the ice, extending over a cubic kilometer. Neutrinos' rarity of interaction necessitates a large detection area to increase the chances of capturing them. When a neutrino interacts with the ice, it generates charged particles and radiation, detectable by the sensors. This allows scientists to infer the neutrino's presence and analyze its properties.
IceCube can identify certain neutrino types in real-time, while others necessitate extensive data analysis over time. Recently, scientists found evidence of tau neutrinos in IceCube data from 2011-2020, with extremely high confidence.
The IceCube neutrino observatory is a device at the Earthâs South Pole that detects subatomic particles called neutrinos. It was built and is maintained by the IceCube Collaboration, which consists of many universities worldwide led by the University of Wisconsin, Madison.
IceCube consists of thousands of sensors buried more than 1.4 km beneath the ice plus multiple detectors above the surface. Neutrinos are light particles that very rarely interact with matter. This is why theyâre called âghost particlesâ. By some estimates, a human-sized neutrino detector will have to wait for a century for a single neutrino to interact with a sensor. The larger the detectorâs collecting area, the higher the chances of spotting neutrinos. IceCube is the worldâs biggest âneutrino telescopeâ; its sensors are distributed throughout a cubic kilometre of ice.
When a neutrino interacts with the ice surrounding the sensors, it may produce some charged particles and some radiation. The sensors detect the radiation to infer the detection of a neutrino and use the radiationâs properties to understand more about the particle. Neutrinos come in different types. IceCube can identify some of them in real-time. For others, IceCube collects data for many years and scientists then comb through them to find neutrino interaction events.
In such an instance, scientists reported last week they had found instances in IceCubeâs data from 2011 to 2020 that matched the signature of tau neutrinos, with more than 99.999999% confidence.
Published - March 19, 2024 02:59 pm IST
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