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Geometrization Conditions for Perfect Fluids, Scalar Fields, and Electromagnetic Fields

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abstract

Rainich-type conditions giving a spacetime "geometrization" of matter fields in general relativity are reviewed and extended. Three types of matter are considered: perfect fluids, scalar fields, and electromagnetic fields. Necessary and sufficient conditions on a spacetime metric for it to be part of a perfect fluid solution of the Einstein equations are given. Formulas for constructing the fluid from the metric are obtained. All fluid results hold for any spacetime dimension. Geometric conditions on a metric which are necessary and sufficient for it to define a solution of the Einstein-scalar field equations and formulas for constructing the scalar field from the metric are unified and extended to arbitrary dimensions, to include a cosmological constant, and to include any self-interaction potential. Necessary and sufficient conditions on a four-dimensional spacetime metric for it to be an electrovacuum and formulas for constructing the electromagnetic field from the metric are generalized to include a cosmological constant. Both null and non-null electromagnetic fields are treated. A number of examples and applications of these results are presented.

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2026 1

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The G\"odel Universe as a Superconductor

physics.gen-ph · 2026-05-31 · unverdicted · novelty 6.0 · 2 refs

The Gödel universe serves as the gravitational analog of a superconducting medium in the Meissner state.

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  • The G\"odel Universe as a Superconductor physics.gen-ph · 2026-05-31 · unverdicted · none · ref 13 · 2 links · internal anchor

    The Gödel universe serves as the gravitational analog of a superconducting medium in the Meissner state.