Chiral anomaly

One of the quantum-field theoretic manifestations of chiral dissymmetry or chiral asymmetry. Chiral anomaly in $2$-dimensional quantum field theory means that the quantum field observables from the left and the right sectors of a field model do not commute. Chiral anomaly is deeply related to non-commutative geometry and the theory of anti-commutative algebras (cf. Anti-commutative algebra), which are not Lie algebras [a1], [a2]. Namely, if the chiral sectors admit symmetries described by a semi-simple Lie algebra $g$, then the whole model possesses symmetries, whose generators belong to the Borel–Lie anti-commutative central extension of the double $g+g$ (an anti-commutative algebra is called a Borel–Lie algebra (or BL-algebra) if every solvable subalgebra of it is a Lie algebra).

Field models with chiral anomaly are efficiently used for anomalous stereo-synthesis (e.g., octonionic stereo-synthesis) in real-time interactive binocular video-systems.

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