Traversable Wormholes in (2+1) and (3+1) Dimensions with a Cosmological Constant
Abstract
Macroscopic traversable wormhole solutions to Einstein's field equations in (2+1) and (3+1) dimensions with a cosmological constant are investigated. Ensuring traversability severely constrains the material used to generate the wormhole's spacetime curvature. Although the presence of a cosmological constant modifies to some extent the type of matter permitted (for example it is possible to have a positive energy density for the material threading the throat of the wormhole in (2+1) dimensions), the material must still be ``exotic'', that is matter with a larger radial tension than total mass-energy density multiplied by c2. Two specific solutions are applied to the general cases and a partial stability analysis of a (2+1) dimensional solution is explored.
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