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World-sheet duality, space-time foam, and the quantum fate of a stringy black hole
We interpret Minkowski black holes as world-sheet {\it spikes } which are related by world-sheet { \it duality} to {\it vortices } that correspond to Euclidean black holes. These world-sheet defects induce defects in the gauge fields of the corresponding coset Wess-Zumino descriptions of spherically...
| Autores principales: | , , |
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| Lenguaje: | eng |
| Publicado: |
1992
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/0370-2693(92)91357-F http://cds.cern.ch/record/237932 |
| _version_ | 1780884748935102464 |
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| author | Ellis, John R. Mavromatos, N.E. Nanopoulos, Dimitri V. |
| author_facet | Ellis, John R. Mavromatos, N.E. Nanopoulos, Dimitri V. |
| author_sort | Ellis, John R. |
| collection | CERN |
| description | We interpret Minkowski black holes as world-sheet {\it spikes } which are related by world-sheet { \it duality} to {\it vortices } that correspond to Euclidean black holes. These world-sheet defects induce defects in the gauge fields of the corresponding coset Wess-Zumino descriptions of spherically-symmetric black holes. The low-temperature target space-time foam is a Minkowski black hole (spike) plasma with confined Euclidean black holes (vortices). The high-temperature phase is a {\it dense} vortex plasma described by a topological gauge field theory on the world-sheet, which possesses enhanced symmetry as in the target space-time singularity at the core of a black hole. Quantum decay via higher-genus effects induces a back-reaction which causes a Minkowski black hole to lose mass until it is indistinguishable from intrinsic fluctuations in the space-time foam. |
| id | cern-237932 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 1992 |
| record_format | invenio |
| spelling | cern-2379322022-03-31T02:13:03Zdoi:10.1016/0370-2693(92)91357-Fhttp://cds.cern.ch/record/237932engEllis, John R.Mavromatos, N.E.Nanopoulos, Dimitri V.World-sheet duality, space-time foam, and the quantum fate of a stringy black holeGeneral Theoretical PhysicsWe interpret Minkowski black holes as world-sheet {\it spikes } which are related by world-sheet { \it duality} to {\it vortices } that correspond to Euclidean black holes. These world-sheet defects induce defects in the gauge fields of the corresponding coset Wess-Zumino descriptions of spherically-symmetric black holes. The low-temperature target space-time foam is a Minkowski black hole (spike) plasma with confined Euclidean black holes (vortices). The high-temperature phase is a {\it dense} vortex plasma described by a topological gauge field theory on the world-sheet, which possesses enhanced symmetry as in the target space-time singularity at the core of a black hole. Quantum decay via higher-genus effects induces a back-reaction which causes a Minkowski black hole to lose mass until it is indistinguishable from intrinsic fluctuations in the space-time foam.We interpret Minkowski black holes as world-sheet {\it spikes } which are related by world-sheet { \it duality} to {\it vortices } that correspond to Euclidean black holes. These world-sheet defects induce defects in the gauge fields of the corresponding coset Wess-Zumino descriptions of spherically-symmetric black holes. The low-temperature target space-time foam is a Minkowski black hole (spike) plasma with confined Euclidean black holes (vortices). The high-temperature phase is a {\it dense} vortex plasma described by a topological gauge field theory on the world-sheet, which possesses enhanced symmetry as in the target space-time singularity at the core of a black hole. Quantum decay via higher-genus effects induces a back-reaction which causes a Minkowski black hole to lose mass until it is indistinguishable from intrinsic fluctuations in the space-time foam.We interpret Minkowski black holes as world-sheet {\it spikes } which are related by world-sheet { \it duality} to {\it vortices } that correspond to Euclidean black holes. These world-sheet defects induce defects in the gauge fields of the corresponding coset Wess-Zumino descriptions of spherically-symmetric black holes. The low-temperature target space-time foam is a Minkowski black hole (spike) plasma with confined Euclidean black holes (vortices). The high-temperature phase is a {\it dense} vortex plasma described by a topological gauge field theory on the world-sheet, which possesses enhanced symmetry as in the target space-time singularity at the core of a black hole. Quantum decay via higher-genus effects induces a back-reaction which causes a Minkowski black hole to lose mass until it is indistinguishable from intrinsic fluctuations in the space-time foam.We interpret Minkowski black holes as world-sheet spikes which are related by world-sheet duality to vortices that correspond to euclidean black holes. These world-sheet defects induce defects in the gauge fields of the corresponding coset Wess-Zumino descriptions of spherically-symmettric black holes. The low-temperature target space-time foam is a Minkowski black hole (spike) plasma with confined euclidean black holes (vortices). The high-temperature phase is a dense vortex plasma described by a topological gauge field theory on the world sheet, which possesses enhanced symmetry as in the target space-time singularity at the core of a black hole. Quantum decay via higher-genus effects induces a back-reaction which causes a Minkowski black hole to lose mass until it is indistinguishable from intrinsic fluctuations in the space-time foam.hep-th/9206077CERN-TH-6534-92ACT-12-92CTP-TAMU-47-92ACT-1992-12CERN-TH-6534-92CTP-TAMU-92-47oai:cds.cern.ch:2379321992 |
| spellingShingle | General Theoretical Physics Ellis, John R. Mavromatos, N.E. Nanopoulos, Dimitri V. World-sheet duality, space-time foam, and the quantum fate of a stringy black hole |
| title | World-sheet duality, space-time foam, and the quantum fate of a stringy black hole |
| title_full | World-sheet duality, space-time foam, and the quantum fate of a stringy black hole |
| title_fullStr | World-sheet duality, space-time foam, and the quantum fate of a stringy black hole |
| title_full_unstemmed | World-sheet duality, space-time foam, and the quantum fate of a stringy black hole |
| title_short | World-sheet duality, space-time foam, and the quantum fate of a stringy black hole |
| title_sort | world-sheet duality, space-time foam, and the quantum fate of a stringy black hole |
| topic | General Theoretical Physics |
| url | https://dx.doi.org/10.1016/0370-2693(92)91357-F http://cds.cern.ch/record/237932 |
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