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Neutrino

Neutrinos are neutral particles that rarely interact with matter.

Neutrinos are neutral particles that rarely interact with matter. Scientists know of three types of neutrinos: electron-neutrinos, muon-neutrinos and tau-neutrinos.

Wolfgang Pauli first proposed the existence of neutrinos in 1930. He believed that they were necessary to explain some problems that scientists had noticed with beta decay. During beta decay, an atom's nucleus sheds excess energy by converting a neutron into a proton and an electron and, as scientists now know, an antineutrino. Scientists noticed that when atoms of a particular isotope underwent beta decay, they always lost the same amount of energy, but the electrons were ejected with a range of energies. It appeared as if energy was being destroyed in the reaction, violating a concept known as the conservation of energy. They also noticed that the ejected electron and the recoiling nucleus didn't always move apart on a straight line, but sometimes did so at an angle. This violated another concept known as the conservation of momentum. Believing that the two conservation laws were valid, Pauli stated than an undetected particle must be produced during beta decay, one that would carry away the missing energy and momentum. Neutrinos were detected experimentally by Clyde Cowan and Fred Reines at the Savannah River reactor in South Carolina in 1956.

The other two types of neutrinos, the muon-neutrino and the tau-neutrino, are associated with particles known as muons and taus. Muons and taus are essentially heavier versions of electrons. The muon-neutrino was discovered by Leon Lederman, Melvin Schwartz and Jack Steinberger at Brookhaven National Laboratory in 1962. The discovery of the tau-neutrino was announced by a team of scientists working at Fermi National Laboratory on July 21, 2000.

Particle Data
Name Symbol Mass Half-life Charge Spin
Electron-neutrino nu sub e Probably less than 50 eV Stable(?) 0 1/2
Antielectron-neutrino nu-bar sub e Probably less than 50 eV Stable(?) 0 1/2
Muon-neutrino nu sub mu Probably less than 0.5 MeV Stable(?) 0 1/2
Antimuon-neutrino nu-bar sub mu Probably less than 0.5 MeV Stable(?) 0 1/2
Tau-neutrino nu sub tau Probably less than 70 MeV Stable(?) 0 1/2
Antitau-neutrino nu-bar sub tau Probably less than 70 MeV Stable(?) 0 1/2