Beta particle

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Alpha radiation consists of helium nuclei and is readily stopped by a sheet of paper. Beta radiation, consisting of electrons, is halted by an aluminium plate. Gamma radiation is eventually absorbed as it penetrates a dense material.
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Alpha radiation consists of helium nuclei and is readily stopped by a sheet of paper. Beta radiation, consisting of electrons, is halted by an aluminium plate. Gamma radiation is eventually absorbed as it penetrates a dense material.

Beta particles are high-energy, high-speed electrons or positrons emitted by certain types of radioactive nuclei such as potassium-40. The beta particles emitted are a form of ionizing radiation also known as beta rays. The production of beta particles is termed beta decay. They are designated by the Greek letter beta (β).

There are two forms of beta decay, β and β+, which respectively give rise to the electron and the positron.

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[edit] β decay (electron emission)

Unstable atomic nuclei with an excess of neutrons may undergo β decay, where a neutron is converted into a proton, an electron and an electron-type antineutrino (the antiparticle of the neutrino):

\mbox{n} \rightarrow \mbox{p} + \mbox{e}^- + \bar{\nu}_{e}

This process is mediated by the weak interaction. The neutron turns into a proton through the emission of a virtual W boson. At the quark level, W emission turns a down-type quark into an up-type quark, turning a neutron (one up quark and two down quarks) into a proton (two up quarks and one down quark). The virtual W boson then decays into an electron and an antineutrino.

Beta decay commonly occurs among the neutron-rich fission byproducts produced in nuclear reactors. Free neutrons also decay via this process. This is the source of the copious amount of electron antineutrinos produced by fission reactors.

[edit] β+ decay (positron emission)

Unstable atomic nuclei with an excess of Inverse beta decay is a key step in the fusion processes that produce energy inside the sun.

[edit] Uses

Beta particles can be used to treat health conditions such as eye and bone cancer, and are also used as tracers. The main element for these applications is Strontium-90. Beta particles are also used in quality control to test the thickness of an item, such as paper, coming through a system of rollers. Some of the beta radiation is absorbed while passing through the product. If the product is made too thick or thin, a correspondingly different amount of radiation will be absorbed. A computer program monitoring the quality of the manufactured paper will then move the rollers to change the thickness of the final product.

Inverse beta decay of a radioactive tracer isotope is the source of the positrons used in positron emission tomography.

[edit] See also

[edit] References

http://www.epa.gov/radiation/radionuclides/strontium.htm