Content deleted Content added
m Disambiguating links to Fine-tuning (link changed to Fine-tuning (physics)) using DisamAssist. |
mNo edit summary |
||
Line 1:
{{Short description|Question of why quantum chromodynamics does seem to not break CP-symmetry}}
The '''strong CP problem''' is a
In particle physics, '''CP''' stands for the combination of [[charge (physics)|charge]] [[C-symmetry|conjugation symmetry]] (C) and [[Parity (physics)|parity]] symmetry (P). According to the current mathematical formulation of quantum chromodynamics, a [[CP violation|violation of CP-symmetry]] in [[strong interaction]]s could occur. However, no violation of the CP-symmetry has ever been seen in any experiment involving only the strong interaction. As there is no known reason in QCD for it to necessarily be conserved, this is a "[[Fine-tuning (physics)|fine tuning]]" problem known as the '''strong CP problem'''.
Line 11:
CP-symmetry states that physics should be unchanged if particles were swapped with their antiparticles and then left-handed and right-handed particles were also interchanged. This corresponds to performing a charge conjugation transformation and then a parity transformation. The symmetry is known to be broken in the [[Standard Model]] through [[weak interaction|weak interactions]], but it is also expected to be broken through [[strong interaction|strong interactions]] which govern [[quantum chromodynamics]] (QCD), something that has not yet been observed.
To illustrate how the CP violation can come about in QCD, consider a [[Yang–Mills theory]] with a single massive [[quark]].<ref>{{cite conference|url=https://www.osti.gov/servlets/purl/6260191|title=A Brief Introduction to the Strong CP Problem|last1=Wu|first1=D.|date=1991|publisher=|___location=Austin, Texas, United States|id=SSCL-548}}</ref> The most general mass term possible for the quark is a complex mass written as <math>m e^{i\theta' \gamma_5}</math> for some arbitrary phase <math>\theta'</math>. In that case the [[Lagrangian (field theory)|Lagrangian]] describing the theory consists of four terms:
:<math>
| |||