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- Title
Supersymmetric Dyons, Superstrings, and Rotating Wormholes.
- Authors
Olszewski, E.
- Abstract
We construct supersymmetric dyon solutions based on the 't Hooft/Polyakov monopole. We show that these solutions satisfy κ -symmetry constraints and can therefore be generalized to supersymmetric solutions of type I S O 32 string theory. After applying a T -duality transformation to these solutions, we obtain two D 3 -branes connected by a wormhole, embedded in an M 5 -brane. We analyze the geometries of each D 3 -brane for two cases: one corresponding to a dyon with vanishing spin and the other corresponding to a magnetic monopole with nonvanishing spin. In the case of the vanishing spin, the scalar curvature is finite everywhere. In the case of the nonvanishing spin, we find a frame dragging effect due to the spin. We also find that the scalar curvature diverges along the spin quantization axis as 1 / ρ 2 , ρ being the cylindrical, radial coordinate defined with respect to the spin axis. These solutions demonstrate the subtle relationship between the Yang-Mills and gravitational interactions, i.e., gauge/gravity duality.
- Subjects
GRAVITATIONAL interactions; YANG-Mills theory; DRAG (Aerodynamics); MAGNETIC monopoles; STRING theory; BRANES; CURVATURE
- Publication
Advances in High Energy Physics, 2022, p1
- ISSN
1687-7357
- Publication type
Article
- DOI
10.1155/2022/7710817