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Line 6: The strong CP problem is sometimes regarded as an [[List of unsolved problems in physics\|unsolved problem in physics]], and has been referred to as "the most underrated puzzle in all of physics."<ref>{{cite conference \|first=T. \|last=Mannel \|title=Theory and Phenomenology of CP Violation \|book-title=Nuclear Physics B \|volume=167 \|pages=170–174 \|publisher=Elsevier \|conference=The 7th International Conference on Hyperons, Charm, and Beauty Hadrons (BEACH 2006) \|date=2–8 July 2006 \|___location=Lancaster \|url=https://indico.cern.ch/event/427023/session/6/contribution/43/attachments/912026/1288208/Lancester-Mannel-Proc.pdf \|doi=10.1016/j.nuclphysbps.2006.12.083 \|access-date=15 Aug 2015 \|bibcode=2007NuPhS.167..170M}}</ref><ref>{{Cite web \| url=https://www.forbes.com/sites/startswithabang/2019/11/19/the-strong-cp-problem-is-the-most-underrated-puzzle-in-all-of-physics \|title = The 'Strong CP Problem' is the Most Underrated Puzzle in All of Physics}}</ref> There are several proposed solutions to solve the strong CP problem. The most well-known is [[Peccei–Quinn theory]],<ref>{{Cite journal\|author1=Peccei, R.D. \|~~author1~~author-link1=Roberto Peccei \|author2=Quinn, H.R. \|author-link2=Helen Quinn\|year=1977\|title=''CP'' conservation in the presence of pseudoparticles\|url=https://www.researchgate.net/publication/248549883\|journal=[[Physical Review Letters]]\|volume=38\|issue=25\|pages=1440–1443\|bibcode=1977PhRvL..38.1440P\|doi=10.1103/PhysRevLett.38.1440~~\|author-link1=Roberto Peccei~~}}</ref> involving new [[pseudoscalar]] particles called [[axion]]s. ==Theory==

Strong CP problem: Difference between revisions