Abstract
The nature and uses of self-similarity in general relativity are discussed. A spacetime may be self-similar (homothetic) along surfaces of any dimensionality, from 1 to 4. A geometric construction is given for all self-similar spacetimes. As an important special case, the "spatially self-similar cosmological models" are introduced, and their dynamical properties are studied in some detail: The initial-value problem is posed, the ADM formulation is established (when applicable), and it is shown that the evolution equations preserve a self-similarity of initial data. The existence of a conserved quantity is deduced from self-similarity. Possible applications to cosmology and singularities are mentioned. © 1974 Springer-Verlag.
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CITATION STYLE
Eardley, D. M. (1974). Self-similar spacetimes: Geometry and dynamics. Communications in Mathematical Physics, 37(4), 287–309. https://doi.org/10.1007/BF01645943
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