Positron - Misplaced Pages

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Positron
Composition	Elementary particle
Family	Lepton Fermion
Generation	First
Interactions	Gravity, Electromagnetic, Weak
Symbol	β+
Antiparticle	Electron
Theorized	Paul Dirac, 1928
Discovered	Carl D. Anderson, 1932
Mass	9.1093826(16) × 10 kg ⁄_{1836.15267261(85)} amu 0.510998918(44) MeV/c
Electric charge	1.602176462(63) × 10 C
Spin	½

File:Cloud chamber - visible trace of positron.JPG

The first detection of the positron in 1932 by Carl D. Anderson

The positron is the antiparticle or the antimatter counterpart of the electron. The positron has an electric charge of +1, a spin of 1/2, and the same mass as an electron. When a low-energy positron collides with a low-energy electron, annihilation occurs, resulting in the production of two gamma ray photons (see electron-positron annihilation).

A positron may be generated by positron emission radioactive decay, or the interaction of photon with a charged particle (such as an atom's nucleus) with energy greater than 2m_ec = 2×0.511 MeV = 1.022 MeV with matter (m_e is the mass of one electron and c is the speed of light in vacuum). This process is called pair production, as it generates one electron and one positron from the energy of the photon.

The existence of positrons was first postulated in 1928 by Paul Dirac as a consequence of the Dirac equation. In 1932, positrons were discovered by Carl D. Anderson, who gave the positron its name. The positron was the first evidence of antimatter and was discovered by passing cosmic rays through a gas chamber and a lead plate surrounded by a magnet to distinguish the particles by bending differently charged particles in different directions.

Today, positrons are routinely produced in positron emission tomography (PET) scanners used in hospitals and in accelerator physics laboratories used in electron-positron collider experiments.

The positron in fiction

Antimatter

Antiparticles Positron Antiproton Antineutron Antihydrogen Antihelium Onia Antiprotonic hydrogen Antiprotonic helium Muonium True muonium Pionium Positronium Quarkonium
Concepts and phenomena Annihilation Baryogenesis Baryon asymmetry Comet CP violation Gravitational interaction Positron emission
Devices Cloud chamber Particle accelerator Antiproton decelerator Relativistic Heavy Ion Collider Penning trap
Uses Positron emission tomography Fuel Weapon
Scientists Carl David Anderson Paul Dirac Andrei Sakharov CERN
v t e

The most famous use of the positron in fiction was Isaac Asimov's use in his robots' positronic brains. According to Asimov, in his book "The Relativity of Wrong", he decided to use positrons as they seemed a more interesting name for what is essentially an "electronic brain". In homage to Asimov, in the Star Trek universe the android Data, his "brother" Lore, "daughter" Lal, and kindred Soong-type androids have positronic brains.

In Hideaki Anno's Neon Genesis Evangelion, the positron rifle, based upon the ATHENA tests in Europe, is used to defeat the invading Angels on numerous occasions; the most notable one being Ramiel.

In the Japanese anime sci-fi series Mobile Suit Gundam SEED and its sequel, Mobile Suit Gundam SEED Destiny, large-scale positron cannons are used on some advanced warships for space-faring combat. Some characters in the series have moral issues with the use of positron cannons within the Earth's atmosphere, as the gamma radiation produced by annihilation reactions can irradiate the surrounding environment in the same way as a nuclear explosion, causing cancers and mutations.

In the anime series Digimon Adventure 02, the powerful heroic Digimon known as Imperialdramon has an attack called "Positron Laser."

In the film Ghostbusters, Peter Venkman refers to his proton pack as a "positron collider" while he and his fellow teammates trap their first ghost since going into business.

In the film Barbarella, the villainous Duran Duran (from whom the pop group derived their name) was the developer of the Positronic ray.

In the videogame Castlevania: Aria of Sorrow, completing the Boss Rush under a certain time will grant the player access to the Positron Rifle. Its description reads: "Fires positive electrons."

v t e Quantum electrodynamics
Formalism	Euler–Heisenberg Lagrangian Feynman diagram Gupta–Bleuler formalism Path integral formulation
Particles	Dual photon Electron Faddeev–Popov ghost Photon Positron Positronium Virtual particles
Concepts	Anomalous magnetic dipole moment Furry's theorem Klein–Nishina formula Landau pole QED vacuum Self-energy Schwinger limit Uehling potential Vacuum polarization Vertex function Ward–Takahashi identity
Processes	Bhabha scattering Breit–Wheeler process Bremsstrahlung Compton scattering Delbrück scattering Lamb shift Møller scattering Schwinger effect Photon-photon scattering
See also: Template:Quantum mechanics topics

External links

What is a Positron? (from the Frequently Asked Questions :: Center for Antimatter-Matter Studies)
Positron information search at SLAC
Positron Annihilation as a method of experimental physics used in materials research.

Template:Elementary

Categories:

The positron in fiction

See also

External links