quantum electrodynamics

quantum electrodynamics
the quantum field theory that deals with the electromagnetic field and its interaction with electrons and positrons. Abbr.: QED

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       quantum field theory of the interactions of charged (electric charge) particles (subatomic particle) with the electromagnetic field. It describes mathematically not only all interactions of light with matter but also those of charged particles with one another. QED is a relativistic theory in that Albert Einstein's (Einstein, Albert) theory of special relativity is built into each of its equations. Because the behaviour of atoms and molecules is primarily electromagnetic in nature, all of atomic physics (physics) can be considered a test laboratory for the theory. Some of the most precise tests of QED have been experiments dealing with the properties of subatomic particles known as muons (muon). The magnetic moment (magnetic dipole) of this type of particle has been shown to agree with the theory to nine significant digits. Agreement of such high accuracy makes QED one of the most successful physical theories so far devised.

      In 1928 the English physicist P.A.M. Dirac (Dirac, P.A.M.) laid the foundations for QED with his discovery of a wave equation (quantum mechanics) that described the motion and spin of electrons (electron) and incorporated both quantum mechanics and the theory of special relativity. The QED theory was refined and fully developed in the late 1940s by Richard P. Feynman (Feynman, Richard P.), Julian S. Schwinger (Schwinger, Julian Seymour), and Tomonaga Shin'ichirō, independently of one another. QED rests on the idea that charged particles (e.g., electrons and positrons) interact by emitting and absorbing photons (photon), the particles that transmit electromagnetic forces. These photons are “virtual”; that is, they cannot be seen or detected in any way because their existence violates the conservation of energy (energy, conservation of) and momentum (momentum, conservation of). The photon exchange is merely the “force” of the interaction, because interacting particles change their speed and direction of travel as they release or absorb the energy of a photon. Photons also can be emitted in a free state, in which case they may be observed as light or other forms of electromagnetic radiation.

      The interaction of two charged particles occurs in a series of processes of increasing complexity. In the simplest, only one virtual photon is involved; in a second-order process, there are two; and so forth. The processes correspond to all the possible ways in which the particles can interact by the exchange of virtual photons, and each of them can be represented graphically by means of the so-called Feynman diagrams (Feynman diagram). Besides furnishing an intuitive picture of the process being considered, this type of diagram prescribes precisely how to calculate the variable involved. Each subatomic process becomes computationally more difficult than the previous one, and there are an infinite number of processes. The QED theory, however, states that the more complex the process—that is, the greater the number of virtual photons exchanged in the process—the smaller the probability of its occurrence. For each level of complexity, the contribution of the process decreases by an amount given by α2—where α is a dimensionless quantity called the fine-structure constant (fine structure), with a numerical value equal to (1/137). Thus, after a few levels the contribution is negligible. In a more-fundamental way the factor α serves as a measure of the strength of the electromagnetic interaction. It equalse2/4πεo[planck]c, where e is the electron charge, [planck] is Planck's constant divided by 2π, c is the speed of light, and εo is the permittivity of free space.

      QED is often called a perturbation theory because of the smallness of the fine-structure constant and the resultant decreasing size of higher-order contributions. This relative simplicity and the success of QED have made it a model for other quantum field theories. Finally, the picture of electromagnetic interactions as the exchange of virtual particles has been carried over to the theories of the other fundamental interactions (fundamental interaction) of matter, the strong force, the weak force, and the gravitational force. See also gauge theory.

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Universalium. 2010.

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