Abstract
We review recent works on the possibility for eternal existence of thin-shell wormholes on Einstein and Einstein–Gauss–Bonnet gravity. We introduce thin-shell wormholes that are categorized into a class of traversable wormhole solutions. After that, we discuss stable thin-shell wormholes with negative-tension branes in Reissner–Nordström–(anti) de Sitter spacetimes in d-dimensional Einstein gravity. Imposing Z2 symmetry, we construct and classify traversable static thin-shell wormholes in spherical, planar and hyperbolic symmetries. It is found that the spherical wormholes are stable against spherically symmetric perturbations. It is also found that some classes of wormholes in planar and hyperbolic symmetries with a negative cosmological constant are stable against perturbations preserving symmetries. In most cases, stable wormholes are found with the appropriate combination of an electric charge and a negative cosmological constant. However, as special cases, there are stable wormholes even with a vanishing cosmological constant in spherical symmetry and with a vanishing electric charge in hyperbolic symmetry. Subsequently, the existence and dynamical stability of traversable thin-shell wormholes with electrically neutral negative-tension branes is discussed in Einstein–Gauss–Bonnet theory of gravitation. We consider radial perturbations against the shell for the solutions, which have the Z2 symmetry. The effect of the Gauss–Bonnet term on the stability depends on the spacetime symmetry.
Highlights
Wormholes are spacetime structures which connect two different universes or even two points of one universe
We developed the thin-shell formalism for d-dimensional spacetimes, which is more general than
Planar and hyperbolically symmetric wormholes with a pure negative-tension brane and found and classified Z2 symmetric static solutions which are stable against radial perturbations
Summary
Wormholes are spacetime structures which connect two different universes or even two points of one universe. The outline of this article is following: Section 1 is the introduction, where wormhole properties are reviewed. This part is based on the work of [4]. We introduce wormholes with a negative-tension brane and we analyze the existence of static solutions, stability and horizon avoidance in spherical, planar and hyperbolic symmetries. This part is on the work of [5]. (the negative-tension brane still satisfies the null energy condition.) we study the existence and instability of static spherically symmetric thin-shell wormholes.
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