Chiral anomalies

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We should distinguish between the different types of anomalies that can arise in quantum field theory. An anomaly is a symmetry of the classical action that is not preserved in the quantum theory. A gauge anomaly causes a gauge symmetry to be broken leading to a violation of a Ward identity which is needed to ensure that unphysical polarization states and unphysical ghost states cancel. Gauge anomalies would cause the theory to be inconsistent and so these anomalies must cancel in any physically meaningful theory. In the standard model, these anomalies appear in individual Feynman diagrams having a triangular fermion loop with gauge bosons at the vertices. The anomalies associated with these diagrams all exactly cancel among themselves so that the theory is consistent. This cancellation seems accidental within the standard model and many people take this to be an indication that the standard model should be explained by a more fundamental theory where this cancellation occurs automatically.

The chiral anomaly is the non-conservation of a chiral current in quantum field theory that is conserved classically. This arises from triangle diagrams much like the gauge anomaly. However, the chiral anomaly does not cancel in the standard model. Since the conservation of chiral symmetry is not needed for consistency, the chiral anomaly does not cause any inconsistencies in the theory. The existence of the chiral anomaly has experimentally observable consequences: the chiral anomaly is physically required in order to explain the decay rate of the neutral pion into two photons since the triangle diagram that gives rise to the chiral anomaly also significantly contributes to the pion decay amplitude.

For more information, see the Wikipedia page on the chiral anomaly and see this previous question: Chiral anomaly and decay of the pion

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Andrew McAddams
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Andrew McAddams

Updated on September 22, 2020

Comments

  • Andrew McAddams
    Andrew McAddams about 3 years

    Recently I have read that there is contraction of chiral anomalies in SM. But people are working on chiral anomalies theory. So I have the question: what is the importance of development of the theory of the chiral anomalies in SM (I see that at least in general it is already at good level) and are there some chiral anomalies in realistic extensions of SM (or, maybe, in some cosmology researches)?

    • Siva
      Siva about 9 years
      Some general context: In QFTs, anomalies are fairly straight-forward to compute, at the one-loop level. In the case of the standard model, anomaly cancellation works out quite miraculously with unlikely looking cancellations among numbers that depend on the gauge charges -- giving rise to an expectation that there's some simpler UV picture from which these charges come out, and anomaly cancellation in that bigger picture might be easy to understand.
    • Siva
      Siva about 9 years
      In particular, chiral anomalies are possible when you have "chiral currents" in your theory, i.e. only the Left (or right) handed fermions are charged under some symmetry. Since in the SM, only left-handed fermions are charged under the weak sector, one has to ensure that the gauge symmetry is kosher at the quantum level, and not "anomalous". My comments are very general (hopefully useful to someone) and you might already know all that, and be looking for something specific.
    • arivero
      arivero about 9 years
      contraction or contradiction?