- Mixed anomaly
-
In theoretical physics, a mixed anomaly is an example of an anomaly: it is an effect of quantum mechanics — usually a one-loop diagram — that implies that the classically valid general covariance and gauge symmetry of a theory of general relativity combined with gauge fields and fermionic fields cannot be preserved simultaneously in the quantum theory.
The adjective "mixed" usually refers to a mixture of a gravitational anomaly and gauge anomaly.
The anomaly usually appears as a Feynman diagram with a chiral fermion running in the loop (a polygon) with n−k external gravitons and k external gauge bosons attached to the loop where n = 1 + D / 2 where D is the spacetime dimension. Anomalies occur only in even spacetime dimensions. For example, the anomalies in the usual 4 spacetime dimensions arise from triangle Feynman diagrams.
General covariance and gauge symmetries are very important symmetries for the consistency of the whole theory, and therefore all gravitational, gauge, and mixed anomalies must cancel out.
See also
Quantum gravity Central concepts graviton · Planck scale · trans-Planckian problem · quantum foam · AdS/CFT correspondence · IR/UV mixing · causal patch · gravitational anomaly · Weinberg–Witten theoremBlack holes black hole thermodynamics · black hole information paradox · holographic principle · Bousso's holographic bound · black hole complementarity · gravitational singularityQuantum field theory
in curved spacetimeProposed theories canonical quantum gravitysuperfluid vacuum theoryLogarithmic BEC vacuumothersToy models 2+1D topological gravity · CGHS model · RST model · Liouville gravity · type 0 string theory · Jackiw–Teitelboim gravityApplications Others quantum mechanics of time travelCategories:- Anomalies in physics
- Quantum gravity
- Quantum physics stubs
Wikimedia Foundation. 2010.
