Cargando…
The origin of space-time as W symmetry breaking in string theory
Physics in the neighbourhood of a space-time metric singularity is described by a world-sheet topological gauge field theory which can be represented as a twisted $N=2$ superconformal Wess-Zumino model with a $W_{1+\infty} \otimes W_{1+\infty} $ bosonic symmetry. The measurable $W$-hair associated w...
| Autores principales: | , , |
|---|---|
| Lenguaje: | eng |
| Publicado: |
1992
|
| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/0370-2693(92)91949-A http://cds.cern.ch/record/237357 |
| _version_ | 1780884712208728064 |
|---|---|
| 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 | Physics in the neighbourhood of a space-time metric singularity is described by a world-sheet topological gauge field theory which can be represented as a twisted $N=2$ superconformal Wess-Zumino model with a $W_{1+\infty} \otimes W_{1+\infty} $ bosonic symmetry. The measurable $W$-hair associated with the singularity is associated with Wilson loop integrals around gauge defects. The breaking of $W_{1+\infty}$ $\otimes $ $W_{1+\infty}$ $\rightarrow $ $W_{1+\infty}$ is associated with expectation values for open Wilson lines that make the metric non-singular away from the singularity. This symmetry breaking is accompanied by massless discrete `tachyon' states that appear as leg poles in $S$-matrix elements. The triviality of the $S$-matrix in the high-energy limit of the $c=1$ string model, after renormalisation by the leg pole factors, is due to the restoration of double $W$-symmetry at the singularity. |
| id | cern-237357 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 1992 |
| record_format | invenio |
| spelling | cern-2373572023-03-14T20:16:40Zdoi:10.1016/0370-2693(92)91949-Ahttp://cds.cern.ch/record/237357engEllis, John R.Mavromatos, N.E.Nanopoulos, Dimitri V.The origin of space-time as W symmetry breaking in string theoryGeneral Theoretical PhysicsPhysics in the neighbourhood of a space-time metric singularity is described by a world-sheet topological gauge field theory which can be represented as a twisted $N=2$ superconformal Wess-Zumino model with a $W_{1+\infty} \otimes W_{1+\infty} $ bosonic symmetry. The measurable $W$-hair associated with the singularity is associated with Wilson loop integrals around gauge defects. The breaking of $W_{1+\infty}$ $\otimes $ $W_{1+\infty}$ $\rightarrow $ $W_{1+\infty}$ is associated with expectation values for open Wilson lines that make the metric non-singular away from the singularity. This symmetry breaking is accompanied by massless discrete `tachyon' states that appear as leg poles in $S$-matrix elements. The triviality of the $S$-matrix in the high-energy limit of the $c=1$ string model, after renormalisation by the leg pole factors, is due to the restoration of double $W$-symmetry at the singularity.Physics in the neighbourhood of a space-time metric singularity is described by a world-sheet topological gauge field theory which can be represented as a twisted $N=2$ superconformal Wess-Zumino model with a $W_{1+\infty} \otimes W_{1+\infty} $ bosonic symmetry. The measurable $W$-hair associated with the singularity is associated with Wilson loop integrals around gauge defects. The breaking of $W_{1+\infty}$ $\otimes $ $W_{1+\infty}$ $\rightarrow $ $W_{1+\infty}$ is associated with expectation values for open Wilson lines that make the metric non-singular away from the singularity. This symmetry breaking is accompanied by massless discrete `tachyon' states that appear as leg poles in $S$-matrix elements. The triviality of the $S$-matrix in the high-energy limit of the $c=1$ string model, after renormalisation by the leg pole factors, is due to the restoration of double $W$-symmetry at the singularity.Physics in the neighbourhood of a space-time metric singularity is described by a world-sheet topological gauge field theory which can be represented as a twisted $N=2$ superconformal Wess-Zumino model with a $W_{1+\infty} \otimes W_{1+\infty} $ bosonic symmetry. The measurable $W$-hair associated with the singularity is associated with Wilson loop integrals around gauge defects. The breaking of $W_{1+\infty}$ $\otimes $ $W_{1+\infty}$ $\rightarrow $ $W_{1+\infty}$ is associated with expectation values for open Wilson lines that make the metric non-singular away from the singularity. This symmetry breaking is accompanied by massless discrete `tachyon' states that appear as leg poles in $S$-matrix elements. The triviality of the $S$-matrix in the high-energy limit of the $c=1$ string model, after renormalisation by the leg pole factors, is due to the restoration of double $W$-symmetry at the singularity.Physics in the neighbourhood of a space-time metric singularity is described by a world-sheet topological gauge field theory which can be represented as a twisted $N=2$ superconformal Wess-Zumino model with a $W_{1+\infty} \otimes W_{1+\infty} $ bosonic symmetry. The measurable $W$-hair associated with the singularity is associated with Wilson loop integrals around gauge defects. The breaking of $W_{1+\infty}$ $\otimes $ $W_{1+\infty}$ $\rightarrow $ $W_{1+\infty}$ is associated with expectation values for open Wilson lines that make the metric non-singular away from the singularity. This symmetry breaking is accompanied by massless discrete `tachyon' states that appear as leg poles in $S$-matrix elements. The triviality of the $S$-matrix in the high-energy limit of the $c=1$ string model, after renormalisation by the leg pole factors, is due to the restoration of double $W$-symmetry at the singularity.Physics in the neighbourhood of a space-time metric singularity is described by a world-sheet topological gauge field theory which can be represented as a twisted N = 2 super-conformal Wess-Zumino model with a W 1+∞ ⊗W 1+∞ bosonic symmetry. The measurable W-hair associated with the singularity is associated with Wilson loop integrals around gauge defects. The breaking of W 1+∞ ⊗W 1+∞ →W 1+∞ is associated with expectation values for open Wilson lines that make the metric non-singular away from the singularity. This symmetry breaking is accompanied by massless discrete “tachyon” states that appear as leg poles in S -matrix elements. The triviality of the S -matrix in the high-energy limit of the c = 1 string model, after renormalization by the leg pole factors, is due to the restoration of double W-symmetry at the singularity.hep-th/9205107CERN-TH-6514-92ACT-11-92CTP-TAMU-43-92ACT-1992-11CERN-TH-6514-92CTP-TAMU-92-43oai:cds.cern.ch:2373571992 |
| spellingShingle | General Theoretical Physics Ellis, John R. Mavromatos, N.E. Nanopoulos, Dimitri V. The origin of space-time as W symmetry breaking in string theory |
| title | The origin of space-time as W symmetry breaking in string theory |
| title_full | The origin of space-time as W symmetry breaking in string theory |
| title_fullStr | The origin of space-time as W symmetry breaking in string theory |
| title_full_unstemmed | The origin of space-time as W symmetry breaking in string theory |
| title_short | The origin of space-time as W symmetry breaking in string theory |
| title_sort | origin of space-time as w symmetry breaking in string theory |
| topic | General Theoretical Physics |
| url | https://dx.doi.org/10.1016/0370-2693(92)91949-A http://cds.cern.ch/record/237357 |
| work_keys_str_mv | AT ellisjohnr theoriginofspacetimeaswsymmetrybreakinginstringtheory AT mavromatosne theoriginofspacetimeaswsymmetrybreakinginstringtheory AT nanopoulosdimitriv theoriginofspacetimeaswsymmetrybreakinginstringtheory AT ellisjohnr originofspacetimeaswsymmetrybreakinginstringtheory AT mavromatosne originofspacetimeaswsymmetrybreakinginstringtheory AT nanopoulosdimitriv originofspacetimeaswsymmetrybreakinginstringtheory |