Pair production is the creation of an
elementary particle and its
antiparticle, for example creating an
electron and
positron, a
muon and
antimuon, or a
proton and
antiproton. Pair production often refers specifically to a
photon creating an electron-positron pair near a nucleus but can more generally refer to any
neutral boson creating a particle-antiparticle pair. In order for pair production to occur, the incoming
energy of the interaction must be above a threshold in order to create the pair at least the total
rest mass energy of the two particles and that the situation allows both energy and
momentum to be conserved. However, all other conserved quantum numbers (
angular momentum,
electric charge,
lepton number) of the produced particles must sum to zero thus the created particles shall have opposite values of each other. For instance, if one particle has electric charge of +1 the other must have electric charge of -1, or if one particle has
strangeness of +1 then another one must have strangeness of -1. The probability of pair production in photon-matter interactions increases with photon energy and also increases approximately as the square of
atomic number of the nearby atom.