The gravitational chiral anomaly of the spin-1/2 field in the presence of twisted boundary conditions for ordinary field theory (Q1973934)
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| English | The gravitational chiral anomaly of the spin-1/2 field in the presence of twisted boundary conditions for ordinary field theory |
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The gravitational chiral anomaly of the spin-1/2 field in the presence of twisted boundary conditions for ordinary field theory (English)
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18 June 2003
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The author calculates the chiral anomaly for twisted boundary conditions using supersymmetric quantum mechanics as proposed by \textit{L. Alvarez-Gaumé} and \textit{E. Witten} [Nucl. Phys. B 234, 269 (1983)] and employing the Feynman diagrammatical formalism developed by \textit{A. Hatzinikitas, K. Schalm} and \textit{P. van Nieuwenhuizen} [Nucl. Phys. B 518, 424-454 (1998; Zbl 0945.81062)]. The main ingredient is the assumption that the path integral is dominated by the contributions belonging to a submanifold invariant under a discrete isometry group of the \(4n\)-dimensional Riemannian manifold. Indeed in this way the standard result (a generalization of the ordinary index theorem on the spin complex) of \textit{T. Eguchi, P. B. Gilkey} and \textit{A. J. Hanson} [Phys. Rep. 66, 213-393 (1980)] is recovered.
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chiral anomaly
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quantum field theory
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orbifolds
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supersymmetric
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Feynman diagrammatical formalism
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quantum mechanics
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