The Covariant Approach to LRS Perfect Fluid Spacetime Geometries
Abstract
The dynamics of perfect fluid spacetime geometries which exhibit Local Rotational Symmetry (LRS) are reformulated in the language of a 1+\,3 "threading" decomposition of the spacetime manifold, where covariant fluid and curvature variables are used. This approach presents a neat alternative to the orthonormal frame formalism. The dynamical equations reduce to a set of differential relations between purely scalar quantities. The consistency conditions are worked out in a transparent way. We discuss their various subcases in detail and focus in particular on models with higher symmetries within the class of expanding spatially inhomogeneous LRS models, via a consideration of functional dependencies between the dynamical variables.
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