Spacetime Slices and Surfaces of Revolution

Abstract

Under certain conditions, a (1+1)-dimensional slice g of a spherically symmetric black hole spacetime can be equivariantly embedded in (2+1)-dimensional Minkowski space. The embedding depends on a real parameter that corresponds physically to the surface gravity of the black hole horizon. Under conditions that turn out to be closely related, a real surface that possesses rotational symmetry can be equivariantly embedded in 3-dimensional Euclidean space. The embedding does not obviously depend on a parameter. However, the Gaussian curvature is given by a simple formula: If the metric is written g = φ(r)-1 dr2 + φ(r) dθ2, then g=-1/2φ''(r). This note shows that metrics g and g occur in dual pairs, and that the embeddings described above are orthogonal facets of a single phenomenon. In particular, the metrics and their respective embeddings differ by a Wick rotation that preserves the ambient symmetry. Consequently, the embedding of g depends on a real parameter. The ambient space is not smooth, and is inversely proportional to the cone angle at the axis of rotation. Further, the Gaussian curvature of g is given by a simple formula that seems not to be widely known.

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