Does Quantum Cosmology Predict a Constant Dilatonic Field?

A. B. BATISTA; Arnowitt R.; Batista A. B.; Beluardi S. C.; Colistete R.; Constantinidis C. P.; Davies E. B.; F. G. ALVARENGA; Fabris J. C.; Fabris J. C.; Gotay M. J.; Gradstein I. S.; Green M. B.; Hajicek P.; Halliwell J. A.; J. C. FABRIS; Polchinski J.; Schutz B. F.; Schutz B. F.

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Does Quantum Cosmology Predict a Constant Dilatonic Field?

Authors: A. B. BATISTA
Arnowitt R.
Batista A. B.
Beluardi S. C.
Colistete R.
Constantinidis C. P.
Davies E. B.
F. G. ALVARENGA
Fabris J. C.
Fabris J. C.
Gotay M. J.
Gradstein I. S.
Green M. B.
Hajicek P.
Halliwell J. A.
J. C. FABRIS
Polchinski J.
Schutz B. F.
Schutz B. F.
Publication date: 1 January 2004
Publisher: 'World Scientific Pub Co Pte Lt'
Doi

Abstract

Quantum cosmology may permit to determine the initial conditions of the Universe. In particular, it may select a specific model between many possible classical models. In this work, we study a quantum cosmological model based on the string effective action coupled to matter. The Schutz's formalism is employed in the description of the fluid. A radiation fluid is considered. In this way, a time coordinate may be identified and the Wheeler-DeWitt equation reduces in the minisuperspace to a Schr\"odinger-like equation. It is shown that, under some quite natural assumptions, the expectation values indicate a null axionic field and a constant dilatonic field. At the same time the scale factor exhibits a bounce revealing a singularity-free cosmological model. In some cases, the mininum value of the scale factor can be related to the value of gravitational coupling.Comment: Latex file, 14 page

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