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Type: Article
States and amplitudes for finite regions in a two-dimensional Euclidean quantum field theory
Abstract:
We quantize the Helmholtz equation (plus perturbative interactions) in two dimensions to illustrate a manifestly local description of quantum field theory. Using the general boundary formulation we describe the quantum dynamics both in a traditional time evolution setting as well as in a setting referring to finite disk (or annulus) shaped regions of spacetime. We demonstrate that both descriptions are equivalent when they should be.
We quantize the Helmholtz equation (plus perturbative interactions) in two dimensions to illustrate a manifestly local description of quantum field theory. Using the general boundary formulation we describe the quantum dynamics both in a traditional time evolution setting as well as in a setting referring to finite disk (or annulus) shaped regions of spacetime. We demonstrate that both descriptions are equivalent when they should be.
Keywords: Quantum field theory; General boundary formulation; S-matrix
MSC: 81T40 (81T70 81U20)
Journal: Journal of Geometry and Physics
ISSN: 0393-0440
Year: 2009
Volume: 59
Number: 7
Pages: 764--780
Zbl Number: 1164.81012
Created: 2012-12-11 19:47:05
Modified: 2014-02-12 12:29:45
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