For example, in the Sudbury Neutrino Observatory, a 1000 ton heavy water solar-neutrino detector picks up about 10 12 neutrinos each second. Consequently, all terrestrial neutrino experiments rely on measuring the tiny fraction of neutrinos that interact in reasonably sized detectors. Typically, a low-energy neutrino will travel through many light-years of normal matter before interacting with anything. To detect neutrinos, very large and very sensitive detectors are required. This fact leads to dividing the leptons into three families, each with a charged lepton and its accompanying neutrino. In particle interactions, although electrons and electron-neutrinos can be created and destroyed, the sum of the number of electrons and electron-neutrinos is conserved. The three neutrino types appear to be distinct: For instance, when muon-neutrinos interact with a target, they will always produce muons, and never taus or electrons. In addition to the electron (and it's anti-particle, the positron), the charged leptons include the muon (with a mass 200 times greater than that of the electron), the tau (with mass 3,500 times greater than that of the electron) and their anti-particles.īoth the muon and the tau, like the electron, have accompanying neutrinos, which are called the muon-neutrino and tau-neutrino. Particles with this property are termed leptons. Nuclear forces treat electrons and neutrinos identically neither participate in the strong nuclear force, but both participate equally in the weak nuclear force. Because they have very little interaction with matter, however, they are incredibly difficult to detect. Neutrinos are one of the most abundant particles in the universe. The neutrinos detected in this event are probably muon-neutrinos, produced when cosmic rays strike the earth's atmosphere.Ī neutrino is a subatomic particle that is very similar to an electron, but has no electrical charge and a very small mass, which might even be zero. NEUTRINO TRAILS.When a neutrino hits the heavy water in the detector's spherical vessel, a cone of light-here clearly visible in red-spreads out to sensors surrounding the device.
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