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SPECTRAL THEORETIC CHARACTERIZATION OF THE MASSLESS DIRAC ACTION

Published online by Cambridge University Press:  08 March 2016

Robert J. Downes
Affiliation:
Department of War Studies, King’s College London, Strand, London WC2R 2LS, U.K. email robert.downes@kcl.ac.uk
Dmitri Vassiliev
Affiliation:
Department of Mathematics, University College London, Gower Street, London WC1E 6BT, U.K. email D.Vassiliev@ucl.ac.uk http://www.homepages.ucl.ac.uk/∼ucahdva/
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Abstract

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We consider an elliptic self-adjoint first-order differential operator $L$ acting on pairs (2-columns) of complex-valued half-densities over a connected compact three-dimensional manifold without boundary. The principal symbol of the operator $L$ is assumed to be trace-free and the subprincipal symbol is assumed to be zero. Given a positive scalar weight function, we study the weighted eigenvalue problem for the operator $L$ . The corresponding counting function (number of eigenvalues between zero and a positive $\unicode[STIX]{x1D706}$ ) is known to admit, under appropriate assumptions on periodic trajectories, a two-term asymptotic expansion as $\unicode[STIX]{x1D706}\rightarrow +\infty$ and we have recently derived an explicit formula for the second asymptotic coefficient. The purpose of this paper is to establish the geometric meaning of the second asymptotic coefficient. To this end, we identify the geometric objects encoded within our eigenvalue problem—metric, non-vanishing spinor field and topological charge—and express our asymptotic coefficients in terms of these geometric objects. We prove that the second asymptotic coefficient of the counting function has the geometric meaning of the massless Dirac action.

Type
Research Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This article is distributed with Open Access under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided that the original work is properly cited.
Copyright
Copyright © University College London 2016

References

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