Electron capture is a type of nuclear reaction where an electron from an atom's inner orbital is absorbed by the atom's nucleus, causing a proton to convert into a neutron. This occurs when an unstable atom has an excess of protons, resulting in a more stable nucleus.
Electron capture can occur in atoms with a low atomic number (Z < 20) and in atoms that have a large ratio of protons to neutrons. The atom must also have an unstable nucleus, which can be identified by a higher atomic mass than stable isotopes of the same element.
Electron capture differs from other types of nuclear reactions in that it involves the absorption of an electron by the nucleus, rather than the emission of particles. This results in a change in the atomic number of the atom, as well as the conversion of a proton into a neutron.
Electron capture is primarily used in scientific research to study the properties of unstable isotopes and to identify elements in chemical compounds. It is also used in some types of medical imaging, such as positron emission tomography (PET), to track the movement of radioactive elements in the body.
Yes, electron capture can occur naturally in some elements, such as potassium and rubidium, which have radioactive isotopes. It can also occur in stars as part of the nuclear fusion process. However, in most cases, electron capture is artificially induced in a laboratory setting for research purposes.