My watch list

Positron emission

Positron emission is a type of beta decay, sometimes referred to as "beta plus" (β⁺). In beta plus decay, a proton is converted, via the weak force, to a neutron, a positron (also known as the "beta plus particle", the antimatter counterpart of an electron), and a neutrino.

Additional recommended knowledge

Guide to balance cleaning: 8 simple steps

How to quickly check pipettes?

Weighing the right way

Isotopes which undergo this decay and thereby emit positrons include carbon-11, potassium-40, nitrogen-13, oxygen-15, fluorine-18, and iodine-121. As an example, the following equation describes the beta plus decay of carbon-11 to boron-11, emitting a positron β⁺ and a neutrino ν_e:

${}^{11}\hbox{C}\;\to\;^{11}\hbox{B}\;+\beta^+\;+\;\nu_e.$

These isotopes are used in positron emission tomography, a technique used for medical imaging.

Nuclei which decay by positron emission may also decay by electron capture. For low-energy decays, electron capture is energetically favored by 2m_ec² = 1.022 MeV, since the final state has an electron removed rather than a positron added. As the energy of the decay goes up, so does the branching ratio towards positron emission. However, if the energy difference is less than 2m_ec², then positron emission cannot occur and electron capture is the sole decay mode. Certain isotopes (for instance, ⁷Be) are stable in galactic cosmic rays, because the electrons are stripped away and the decay energy is too small for positron emission.

v • d • e Nuclear processes
Radioactive decay	Alpha decay · Beta decay · Gamma radiation · Cluster decay · Double beta decay · Double electron capture · Internal conversion · Isomeric transition · Spontaneous fission
Other processes	Emission processes: Neutron emission · Positron emission · Proton emission Capturing: Electron capture · Neutron capture
Stellar nucleosynthesis	pp-Chain · CNO cycle · α process · Triple-α · Carbon burning · Ne burning · O burning · Si burning · R-process · S-process · P-process · Rp-process