Near Horizon Geometry of Rotating Black Holes in Five Dimensions

· 1998 · hep-th · arXiv hep-th/9805097

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abstract

We interpret the general rotating black holes in five dimensions as rotating black strings in six dimensions. In the near horizon limit the geometry is locally AdS_3 x S_3, as in the nonrotating case. However, the global structure couples the AdS_3 and the S_3, giving angular velocity to the S_3. The asymptotic geometry is exploited to count the microstates and recover the precise value of the Bekenstein- Hawking entropy, with rotation taken properly into account. We discuss the perturbation spectrum of the rotating black hole, and its relation to the underlying conformal field theory.

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Index saddle for the D1-D5-P black string and its decoupling limit

hep-th · 2026-06-25 · unverdicted · novelty 5.0

Constructs index saddle for D1-D5-P black string via BPS limit and uplift, with decoupling to BTZ x S^3 computing CFT index.

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Index saddle for the D1-D5-P black string and its decoupling limit hep-th · 2026-06-25 · unverdicted · none · ref 42 · internal anchor
Constructs index saddle for D1-D5-P black string via BPS limit and uplift, with decoupling to BTZ x S^3 computing CFT index.

Near Horizon Geometry of Rotating Black Holes in Five Dimensions

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