Affiliation:
1. Department of Mathematics, King’s College London, Strand, London WC2R 2LS, UK
Abstract
Wormhole solutions, bridges that connect different parts of spacetime, were proposed early in the history of General Relativity. Soon after, it was shown that all wormholes violate classical energy conditions, which are non-negativity constraints on contractions of the stress–energy tensor. Since these conditions are violated by quantum fields, it was believed that wormholes can be constructed in the context of semiclassical gravity. But negative energies in quantum field theory are not without restriction: quantum energy inequalities (QEIs) control renormalized negative energies averaged over a geodesic. Thus, QEIs provide restrictions on the construction of wormholes. This work is a review of the relevant literature, thus focusing on results where QEIs restrict traversable wormholes. Both ‘short’ and ‘long’ (without causality violations) wormhole solutions in the context of semiclassical gravity are examined. A new result is presented on constraints on the Maldacena, Milekhin, and Popov ‘long’ wormhole from the recently derived doubled smeared null energy condition.
Reference94 articles.
1. Gravitational collapse and space-time singularities;Penrose;Phys. Rev. Lett.,1965
2. The Occurrence of singularities in cosmology;Hawking;Proc. R. Soc. Lond.,1966
3. Nonpositivity of energy density in Quantized field theories;Epstein;Nuovo C.,1965
4. Quantum Coherence Effects and the Second Law of Thermodynamics;Ford;Proc. R. Soc. Lond.,1978
5. Null energy conditions in quantum field theory;Fewster;Phys. Rev. D,2003