TL;DR
This paper constructs and analyzes rotating four-dimensional black holes derived from five-dimensional Einstein gravity, exploring their thermodynamics, dualities, and stability within string theory as D-brane bound states.
Contribution
It provides a new construction of regular rotating Kaluza-Klein black holes and investigates their properties in the context of string theory and duality symmetries.
Findings
Black holes interpreted as D0-D6 brane bound states
Conservation of angular momentum affects stability
Thermodynamics and duality symmetries analyzed
Abstract
All regular four-dimensional black holes are constructed in the theory obtained by Kaluza-Klein reduction of five-dimensional Einstein gravity. They are interpreted in string theory as rotating bound states of D0- and D6-branes. Conservation of angular momentum is important for the stability of the bound states. The thermodynamics, the duality symmetries, and the near-horizon limit are explored.
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