pair production

physics
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pair production, in physics, the production of a particle-antiparticle pair from the decay of a neutral particle or from a pulse of electromagnetic energy traveling through matter, usually in the vicinity of an atomic nucleus. The most commonly observed pair-production process is the materialization of an electron and a positron from a high-energy photon. In this case, pair production is a direct conversion of radiant energy to matter. It is one of the principal ways in which high-energy gamma rays are absorbed in matter. For electron-positron pair production to occur, the electromagnetic energy, in a discrete quantity called a photon, must be at least equivalent to the mass of two electrons. (The electron and positron have the same mass; being antiparticles of each other, they differ only in their charge.) The mass m of a single electron is equivalent to 0.511 million electron volts (MeV) of energy E as calculated from the equation formulated by Albert Einstein, E = mc2, in which c is the speed of light. To produce two electrons, therefore, the photon energy must be at least 1.022 MeV. Photon energy greater than this amount, when pair production occurs, is converted into motion of the electron-positron pair. If pair production occurs in a track detector, such as a cloud chamber, to which a magnetic field is properly applied, the electron and the positron curve away from the point of formation in opposite directions in arcs of equal curvature. In this way pair production was first detected (1933). The positron that is formed quickly disappears by annihilation with another electron in matter and is reconverted into photons.

Internal pair production, a species of gamma decay, occurs when an unstable nucleus that has at least 1.02 MeV of excess energy directly ejects an electron-positron pair created within its own electromagnetic field without first producing a gamma photon.

Many particles decay into particle-antiparticle pairs. For example, the most common decay for the Higgs boson is into a bottom quark and an anti-bottom quark.

Italian-born physicist Dr. Enrico Fermi draws a diagram at a blackboard with mathematical equations. circa 1950.
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The Editors of Encyclopaedia BritannicaThis article was most recently revised and updated by Erik Gregersen.