Title
Dynamics of the mixmaster-type vacuum universe with geometry R×S3×S3×S3
Document Type
Article
Publication Title
General Relativity and Gravitation
Publication Date
11-1-1990
Abstract
A model of a spatially homogeneous and anisotropic, vacuum universe with geometry R×S3×S3×S3 is studied using a hamiltonian formalism. The formalism is developed by first deriving the hamiltonian for a D-dimensional, mixmaster-type, vacuum universe. The model evolves from an initial Kasner-like state to a final Kasner-like state upon irreversible collapse. The collapse is predicted to be inevitable based on qualitative analysis and numerical calculations verify this behavior. A lower bound of 0.286 is found for the ratio of the contraction rate of the universe long after a Kasner phase transition to the contraction rate long before the transition. Seven of the seventeen theoretically possible qualitatively different compactification schemes are found numerically and tabulated. A subset of all the constraint satisfying initial conditions which leads to three isotropically expanding dimensions and six contracting dimensions is found. © 1990 Plenum Publishing Corporation.
Volume
22
Issue
11
First Page
1321
Last Page
1339
DOI
10.1007/BF00756812
ISSN
00017701
E-ISSN
15729532
Recommended Citation
Stuckey, W. M.; Witten, L.; and Stewart, Bob, "Dynamics of the mixmaster-type vacuum universe with geometry R×S3×S3×S3" (1990). Faculty Publications. 1556.
https://jayscholar.etown.edu/facpubharvest/1556
