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C-symmetry

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Title: C-symmetry  
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Subject: CP violation, Baryogenesis, C, P and T, Majorana equation, Index of physics articles (C)
Collection: Quantum Field Theory, Symmetry
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C-symmetry

In physics, C-symmetry means the symmetry of physical laws under a charge-conjugation transformation. Electromagnetism, gravity and the strong interaction all obey C-symmetry, but weak interactions violate C-symmetry.

Contents

  • Charge reversal in electromagnetism 1
  • Combination of charge and parity reversal 2
  • Charge definition 3
  • See also 4
  • References 5

Charge reversal in electromagnetism

The laws of electromagnetism (both classical and quantum) are invariant under this transformation: if each charge q were to be replaced with a charge −q, and thus the directions of the electric and magnetic fields were reversed, the dynamics would preserve the same form. In the language of quantum field theory, charge conjugation transforms:[1]

  1. \psi \rightarrow -i(\bar\psi \gamma^0 \gamma^2)^T
  2. \bar\psi \rightarrow -i(\gamma^0 \gamma^2 \psi)^T
  3. A^\mu \rightarrow -A^\mu

Notice that these transformations do not alter the chirality of particles. A left-handed neutrino would be taken by charge conjugation into a left-handed antineutrino, which does not interact in the Standard Model. This property is what is meant by the "maximal violation" of C-symmetry in the weak interaction.

(Some postulated extensions of the Standard Model, like left-right models, restore this C-symmetry.)

Combination of charge and parity reversal

It was believed for some time that C-symmetry could be combined with the parity-inversion transformation (see P-symmetry) to preserve a combined CP-symmetry. However, violations of this symmetry have been identified in the weak interactions (particularly in the kaons and B mesons). In the Standard Model, this CP violation is due to a single phase in the CKM matrix. If CP is combined with time reversal (T-symmetry), the resulting CPT-symmetry can be shown using only the Wightman axioms to be universally obeyed.

Charge definition

To give an example, take two real scalar fields, φ and χ. Suppose both fields have even C-parity (even C-parity refers to even symmetry under charge conjugation ex. C\psi(q) = C\psi(-q), as opposed to odd C-parity which refers to antisymmetry under charge conjugation ex. C\psi(q)=-C\psi(-q)). Now reformulate things so that \psi\ \stackrel{\mathrm{def}}{=}\ {\phi + i \chi\over \sqrt{2}}. Now, φ and χ have even C-parities because the imaginary number i has an odd C-parity (C is antiunitary).

In other models, it is possible for both φ and χ to have odd C-parities.

See also

References

  1. ^ Peskin, M.E. and Schroeder, D.V. (1997). An Introduction to Quantum Field Theory. Addison Wesley.  
  • Sozzi, M.S. (2008). Discrete symmetries and CP violation. Oxford University Press.  
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