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Type: Article
Holomorphic Quantization of Linear Field Theory in the General Boundary Formulation
Abstract:
We present a rigorous quantization scheme that yields a quantum field theory in general boundary form starting from a linear field theory. Following a geometric quantization approach in the Kahler case, state spaces arise as spaces of holomorphic functions on linear spaces of classical solutions in neighborhoods of hypersurfaces. Amplitudes arise as integrals of such functions over spaces of classical solutions in regions of spacetime. We prove the validity of the TQFT-type axioms of the general boundary formulation under reasonable assumptions. We also develop the notions of vacuum and coherent states in this framework. As a first application we quantize evanescent waves in Klein-Gordon theory.
We present a rigorous quantization scheme that yields a quantum field theory in general boundary form starting from a linear field theory. Following a geometric quantization approach in the Kahler case, state spaces arise as spaces of holomorphic functions on linear spaces of classical solutions in neighborhoods of hypersurfaces. Amplitudes arise as integrals of such functions over spaces of classical solutions in regions of spacetime. We prove the validity of the TQFT-type axioms of the general boundary formulation under reasonable assumptions. We also develop the notions of vacuum and coherent states in this framework. As a first application we quantize evanescent waves in Klein-Gordon theory.
Keywords: geometric quantization; topological quantum field theory; coherent states; foundations of quantum theory; quantum field theory
MSC: 53D50 (81S10)
Publisher: NATL ACAD SCI UKRAINE, INST MATH
Address: 3 TERESCHCHENKIV SKA ST, KYIV 4, 01601, UKRAINE
Journal: Symmetry, Integrability and Geometry: Methods and Applications (SIGMA)
ISSN: 1815-0659
Year: 2012
Volume: 8
Pages: 050, 31 pages
Zbl Number: 1285.81042
Created: 2013-01-29 13:59:44
Modified: 2016-12-06 12:49:36
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