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This article is cited in 13 scientific papers (total in 13 papers)
The Symmetric Tensor Lichnerowicz Algebra and a Novel Associative Fourier–Jacobi Algebra
Karl Hallowella, Andrew Waldron a Department of Mathematics, University of California, Davis CA 95616, USA
Abstract:
Lichnerowicz's algebra of differential geometric operators acting on symmetric tensors can be obtained from generalized geodesic motion of an observer carrying a complex tangent vector. This relation is based upon quantizing the classical evolution equations, and identifying wavefunctions with sections of the symmetric tensor bundle and Noether charges with geometric operators. In general curved spaces these operators obey a deformation of the Fourier–Jacobi Lie algebra of $sp(2,\mathbb R)$. These results have already been generalized by the authors to arbitrary tensor and spinor bundles using supersymmetric quantum mechanical models and have also been applied to the theory of higher spin particles. These Proceedings review these results in their simplest, symmetric tensor setting. New results on a novel and extremely useful reformulation of the
rank 2 deformation of the Fourier–Jacobi Lie algebra in terms of an associative algebra are also presented. This new algebra was originally motivated by studies of operator orderings in enveloping algebras. It provides a new method that is superior in many respects to common techniques such as Weyl or normal ordering.
Keywords:
symmetric tensors; Fourier–Jacobi algebras; higher spins; operator orderings.
Received: July 21, 2007; Published online September 13, 2007
Citation:
Karl Hallowell, Andrew Waldron, “The Symmetric Tensor Lichnerowicz Algebra and a Novel Associative Fourier–Jacobi Algebra”, SIGMA, 3 (2007), 089, 12 pp.
Linking options:
https://www.mathnet.ru/eng/sigma215 https://www.mathnet.ru/eng/sigma/v3/p89
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