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Annihilation


In particle physics, annihilation is the process that occurs when a subatomic particle collides with its respective antiparticle to produce other particles, such as an electron colliding with a positron to produce two photons. The total energy and momentum of the initial pair are conserved in the process, and, more generally are distributed among a set of other particles in the final state. Antiparticles have exactly opposite additive quantum numbers from particles, so the sums of all quantum numbers of such an original pair are zero. Hence, any set of particles may be produced whose total quantum numbers are also zero as long as conservation of energy and conservation of momentum are obeyed.

During a low-energy annihilation, photon production is favored, since these particles have no mass. However, high-energy particle colliders produce annihilations where a wide variety of exotic heavy particles are created.

The word annihilation may also be used informally for the interaction of two particles that are not mutual antiparticles (not charge conjugate). Some quantum numbers may then not sum to zero in the initial state, but must be conserved, with the same totals in the final state. An example is the "annihilation" of a high-energy electron antineutrino with an electron to produce a
W
.

If the annihilating particles are composite, such as mesons or baryons, then several different particles are typically produced in the final state.


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