Quantum field theory on space-times with a compactly generated Cauchy horizon
Mar, 1996
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Abstract: (arXiv)
We prove two theorems concerning difficulties in the formulation of a quantum linear scalar field theory on a spacetime, with a compactly generated Cauchy horizon. These theorems demonstrate the breakdown of the theory at certain {\it base points} of the Cauchy horizon, which are defined as ``past terminal accumulation points'' of the horizon generators. Thus, they may be interpreted as giving support to Hawking's Chronology Protection Conjecture, according to which the laws of physics prevent one from manufacturing a ``time machine''. Specifically: {\bf Theorem 1.} {\it There is no extension to of the usual field algebra on the initial globally hyperbolic region which satisfies F-locality at any base point. In other words, any extension of the field algebra must, in any globally hyperbolic neighborhood of any base point, differ from the algebra one would define on that neighborhood according to the rules for globally hyperbolic spacetimes.} {\bf Theorem 2.} {\it The two-point distribution for any Hadamard state defined on the initial globally hyperbolic region must (when extended to a distributional bisolution of the covariant Klein Gordon equation on the full spacetime) be singular at every base point in the sense that the difference between this two point distribution and a local Hadamard distribution cannot be given by a bounded function in any neighborhood (in ) of .} Theorem 2 implies quantities such as the expectation value of or of the renormalized stress-energy tensor are necessarily ill-defined or singular at any base point. The proofs rely on the Propagation of Singularities theorems of Duistermaat and H\"ormander.- space-time
- boundary condition
- quantization
- Klein-Gordon equation
- axiomatic field theory
- linear space: Hilbert space
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