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Non-expanding Plebański-Demiański space-times

Publication at Faculty of Mathematics and Physics |
2018

Abstract

The aim of this work is to describe the complete family of non-expanding Plebański-Demiański type D space-times and to present their possible interpretation. We explicitly express the most general form of such (electro)vacuum solutions with any cosmological constant, and we investigate the geometrical and physical meaning of the seven parameters they contain.

We present various metric forms, and by analyzing the corresponding coordinates in the weak-field limit we elucidate the global structure of these spacetimes, such as the character of possible singularities. We also demonstrate that members of this family can be understood as generalizations of classic B-metrics.

In particular, the BI-metric represents an external gravitational field of a tachyonic (superluminal) source, complementary to the AI-metric which is the well-known Schwarzschild solution for exact gravitational field of a static (standing) source.