Internal time, test clocks, and singularity resolution in dust-filled quantum cosmology

The problem of time evolution in quantum cosmology is studied in the context of a dust-filled, spatially flat Friedmann-Robertson-Walker universe. In this model, two versions of the commonly-adopted notion of internal time can be implemented in the same quantization, and are found to yield contradic...

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Bibliographic Details
Published in:Physical review. D, Particles, fields, gravitation, and cosmology Particles, fields, gravitation, and cosmology, 2012-01, Vol.85 (2), Article 023512
Main Author: Lawrie, Ian D.
Format: Article
Language:English
Subjects:
Bouncing
Clocks
Cosmology
Density
Derivation
Evolution
Singularities
Universe
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Summary:The problem of time evolution in quantum cosmology is studied in the context of a dust-filled, spatially flat Friedmann-Robertson-Walker universe. In this model, two versions of the commonly-adopted notion of internal time can be implemented in the same quantization, and are found to yield contradictory views of the same quantum state: with one choice, the big-bang singularity appears to be resolved, but with another choice it does not. This and other considerations lead to the conclusion that the notion of internal time as it is usually implemented has no satisfactory physical interpretation. A recently proposed variant of the relational-time construction, using a test clock that is regarded as internal to a specific observer, appears to provide an improved account of time evolution relative to the proper time that elapses along the observer's worldline. This construction permits the derivation of consistent joint probability densities for observable quantities, which can be viewed either as evolving with proper time or as describing correlations in a timeless manner. It turns out that the observer whose sense of time originates in this test clock will find herself to be living in a bouncing universe.
ISSN:1550-7998
1550-2368
DOI:10.1103/PhysRevD.85.023512