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For historical reasons, muons are sometimes referred to as mu mesons, even though they are not classified as mesons by modern particle physicists (see History ). Muons have a mass that is 207 times greater than the electron (105.6 MeV). Because of this, a muon can be thought of as an extremely heavy electron. Muons are denoted by μ- and antimuons by μ+.
On earth, muons are created when a charged pion decays. The pions are created in an upper atmosphere by cosmic radiation and have a very short decay time--a few nanoseconds. The muons created when the pion decays are also short-lived: their decay time is 2.2 microseconds. However, muons in the atmosphere are moving at very high velocities, so that the time dilationTime dilation according to Albert Einstein's special theory of relativity, is the slowing-down of the passage of time as experienced by people or objects moving in relation to an observer. Gravitational time dilation is the slowing down of the passage of effect of special relativitySpecial relativity (SR or the special theory of relativity is the physical theory published in 1905 by Albert Einstein. It replaced Newtonian notions of space and time, and incorporated electromagnetism as represented by Maxwell's equations. The theory is make them easily detectable at the earth's surface.
As with the case of the other charged leptons, there is a muon-neutrino which is associated with the muon. Muon-neutrinos are denoted by νμ. Muons naturally decay into an electron, an electron neutrino, and a muon-antineutrino.
The muon was the first elementary particleIn particle physics, an elementary particle is a particle of which other, larger particles are composed. For example, atoms are made up of smaller particles known as electrons, protons, and neutrons. The proton and neutron, in turn, are composed of more e discovered that does not appear in ordinary atomFor alternative meanings see atom (disambiguation). An atom is a microscopic structure found in all ordinary matter around us. Atoms are composed of 3 types of subatomic particles: electrons, which have a negative charge; protons, which have a positive chs. Muons can, however, form muon atoms by replacing the electrons in ordinary atoms. Muon atoms are much smaller than typical atoms because in order to conserve angular momentum, the more massive muon must be closer to the atomic nucleusThe nucleus atomic nucleus is the center of an atom. It is composed of one or more protons and usually some neutrons as well. The number of protons in an atom's nucleus is called the atomic number, and determines which element the atom is (for example hyd than their less massive electron counterparts.