Book chapter 927 views
Causality and Superluminal Light
Graham Shore
Time and Matter, Pages: 45 - 66
Swansea University Author: Graham Shore
Abstract
The causal properties of curved spacetime, which underpin our sense of time in gravitational theories, are defined by the null cones of the spacetime metric. In classical general relativity, it is assumed that these coincide with the light cones determined by the physical propagation of light rays....
| Published in: | Time and Matter |
|---|---|
| Published: |
Singapore
World Scientific
2006
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| Online Access: |
http://arxiv.org/abs/gr-qc/0302116 |
| URI: | https://cronfa.swan.ac.uk/Record/cronfa17507 |
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| spelling |
2014-03-21T15:20:40.7857302 v2 17507 2014-03-20 Causality and Superluminal Light 28a24f55687c82d6f3ee378ead3cf234 Graham Shore Graham Shore true false 2014-03-20 FGSEN The causal properties of curved spacetime, which underpin our sense of time in gravitational theories, are defined by the null cones of the spacetime metric. In classical general relativity, it is assumed that these coincide with the light cones determined by the physical propagation of light rays. However, the quantum vacuum acts as a dispersive medium for the propagation of light, since vacuum polarisation in QED induces interactions which effectively violate the strong equivalence principle (SEP). For low frequencies the phenomenon of gravitational birefringence occurs and indeed, for some metrics and polarisations, photons may acquire {\it superluminal} phase velocities. In this article, we review some of the remarkable features of SEP violating superluminal propagation in curved spacetime and discuss recent progress on the issue of dispersion, explaining why it is the high-frequency limit of the phase velocity that determines the characteristics of the effective wave equation and thus the physical causal structure. Book chapter Time and Matter 45 66 World Scientific Singapore 1 2 2006 2006-02-01 http://arxiv.org/abs/gr-qc/0302116 COLLEGE NANME Science and Engineering - Faculty COLLEGE CODE FGSEN Swansea University 2014-03-21T15:20:40.7857302 2014-03-20T22:48:48.0860880 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics Graham Shore 1 |
| title |
Causality and Superluminal Light |
| spellingShingle |
Causality and Superluminal Light Graham Shore |
| title_short |
Causality and Superluminal Light |
| title_full |
Causality and Superluminal Light |
| title_fullStr |
Causality and Superluminal Light |
| title_full_unstemmed |
Causality and Superluminal Light |
| title_sort |
Causality and Superluminal Light |
| author_id_str_mv |
28a24f55687c82d6f3ee378ead3cf234 |
| author_id_fullname_str_mv |
28a24f55687c82d6f3ee378ead3cf234_***_Graham Shore |
| author |
Graham Shore |
| author2 |
Graham Shore |
| format |
Book chapter |
| container_title |
Time and Matter |
| container_start_page |
45 |
| publishDate |
2006 |
| institution |
Swansea University |
| publisher |
World Scientific |
| college_str |
Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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School of Biosciences, Geography and Physics - Physics{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Physics |
| url |
http://arxiv.org/abs/gr-qc/0302116 |
| document_store_str |
0 |
| active_str |
0 |
| description |
The causal properties of curved spacetime, which underpin our sense of time in gravitational theories, are defined by the null cones of the spacetime metric. In classical general relativity, it is assumed that these coincide with the light cones determined by the physical propagation of light rays. However, the quantum vacuum acts as a dispersive medium for the propagation of light, since vacuum polarisation in QED induces interactions which effectively violate the strong equivalence principle (SEP). For low frequencies the phenomenon of gravitational birefringence occurs and indeed, for some metrics and polarisations, photons may acquire {\it superluminal} phase velocities. In this article, we review some of the remarkable features of SEP violating superluminal propagation in curved spacetime and discuss recent progress on the issue of dispersion, explaining why it is the high-frequency limit of the phase velocity that determines the characteristics of the effective wave equation and thus the physical causal structure. |
| published_date |
2006-02-01T03:20:13Z |
| _version_ |
1763750564209885184 |
| score |
11.035655 |