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===Beta decay=== {{Main|Beta decay}} Neutrons and protons within a nucleus behave similarly and can exchange their identities by similar reactions. These reactions are a form of [[radioactive decay]] known as [[beta decay]].<ref>{{Cite book |last1=Basdevant |first1=J.-L. |last2=Rich |first2=J. |last3=Spiro |first3=M. |year=2005 |title=Fundamentals in Nuclear Physics: From Nuclear Structure to Cosmology |publisher=[[Springer (publisher)|Springer]] |isbn=978-0-387-01672-6 }}</ref> Beta decay, in which neutrons decay to protons, or vice versa, is governed by the [[weak interaction|weak force]], and it requires the emission or absorption of electrons and neutrinos, or their antiparticles.<ref name=Loveland>{{cite book |last=Loveland |first=W. D. |year=2005 |title=Modern Nuclear Chemistry |url=https://books.google.com/books?id=ZAHJkrJlwbYC&pg=PA199 |page=199 |publisher=[[John Wiley & Sons|Wiley]] |isbn=978-0-471-11532-8 |access-date=2024-05-01 |archive-date=2024-05-01 |archive-url=https://web.archive.org/web/20240501202310/https://books.google.com/books?id=ZAHJkrJlwbYC&pg=PA199 |url-status=live }}</ref> The neutron and proton decay reactions are: : {{math|{{SubatomicParticle|Neutron0}} β {{SubatomicParticle|Proton+}} + {{SubatomicParticle|Electron}} + {{SubatomicParticle|Electron antineutrino}}}} where {{SubatomicParticle|Proton+}}, {{SubatomicParticle|Electron}}, and {{math|{{SubatomicParticle|Electron antineutrino}}}} denote the proton, electron and electron anti-[[neutrino]] decay products,<ref>[http://pdg.lbl.gov/2007/tables/bxxx.pdf Particle Data Group Summary Data Table on Baryons] {{Webarchive|url=https://web.archive.org/web/20110910125729/http://pdg.lbl.gov/2007/tables/bxxx.pdf |date=2011-09-10 }}. lbl.gov (2007). Retrieved on 2012-08-16.</ref> and : {{math|{{SubatomicParticle|Proton+}} β {{SubatomicParticle|Neutron0}} + {{SubatomicParticle|Positron}} + {{SubatomicParticle|Electron neutrino}}}} where {{SubatomicParticle|Neutron0}}, {{SubatomicParticle|Positron}}, and {{math|{{SubatomicParticle|Electron neutrino}}}} denote the neutron, positron and electron neutrino decay products. The electron and positron produced in these reactions are historically known as [[beta particles]], denoted Ξ²<sup>β</sup> or Ξ²<sup>+</sup> respectively, lending the name to the decay process.<ref name=Loveland/> In these reactions, the original particle is not ''composed'' of the product particles; rather, the product particles are ''created'' at the instant of the reaction.<ref name="Pais1993">{{cite book|author=Abraham Pais|title=Niels Bohr's Times: In Physics, Philosophy, and Polity|url=https://archive.org/details/nielsbohrstimesi0000pais|url-access=registration|year=1991|publisher=Oxford University Press|isbn=0-19-852049-2}}</ref>{{rp|369β370}} "Beta decay" reactions can also occur by the capture of a [[lepton]] by the nucleon. The transformation of a proton to a neutron inside of a nucleus is possible through [[electron capture]]:<ref>{{cite book |last1=Cottingham |first1=W.N. |last2=Greenwood |first2=D.A. |year=1986|title=An introduction to nuclear physics|page=[https://archive.org/details/introductiontonu0000cott/page/40 40] |publisher=[[Cambridge University Press]] |isbn=978-0-521-31960-7 |url=https://archive.org/details/introductiontonu0000cott/page/40 }}</ref> :{{math|{{SubatomicParticle|Proton+}} + {{SubatomicParticle|Electron}} β {{SubatomicParticle|Neutron0}} + {{SubatomicParticle|Electron neutrino}}}} A rarer reaction, [[inverse beta decay]], involves the capture of a neutrino by a nucleon.<ref>{{cite journal |year=1997 |title=The Reines-Cowan Experiments: Detecting the Poltergeist |url=http://library.lanl.gov/cgi-bin/getfile?25-02.pdf |journal=[[Los Alamos Science]] |volume=25 |page=3 |access-date=2024-05-09 |archive-date=2013-02-21 |archive-url=https://web.archive.org/web/20130221123519/http://library.lanl.gov/cgi-bin/getfile?25-02.pdf |url-status=live }}</ref> Rarer still, positron capture by neutrons can occur in the high-temperature environment of stars.<ref name="Fowler">{{cite journal|last=Fowler|first=W.A.|title=The quest for the origin of the elements|journal=Science|volume=226|year=1984|issue=4677 |pages=922β935 |doi=10.1126/science.226.4677.922 |pmid=17737334 |bibcode=1984Sci...226..922F }}</ref>
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