MG13 - Talk detail |
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Participant |
Gomes, Henrique de Andrade Gomes | |||||||
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Institution |
University of California, Davis - 1635 Martin Luther King Junior Way, Ap 5 - Berkeley - California - USA | |||||||
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Session |
QG1 |
Accepted |
Yes |
Order |
1 |
Time |
14:00 - 14:20 | |
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Talk |
Oral abstract |
Title |
Gauge/gravity holography for non- asymptotically AdS spacetimes using Shape Dynamics | |||||
| Co-authors | Tim Koslowski, Lee Smolin, Flavio Mercati, Sean Gryb | |||||||
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Abstract |
Shape Dynamics is a theory dynamically equivalent to general relativity under some mild restrictions, but with a different set of symmetries, namely, it possesses dilatational symmetry as opposed to refoliation symmetry. Gauge/gravity holographic dualities relate a near boundary expansion of the metric in asymptotically AdS spacetimes in general relativity with a conformal theory at the boundary. It works explicitly only for asymptotically AdS, and for certain very restricted class of spacetime topologies. Using Shape Dynamics we construct a duality which matches that of the usual holographic treatment where the latter applies, but which, in a more adapted conceptual setting, can also be applied to general topologies and does not restrict to asymptotically AdS. |
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Session |
OC4 |
Accepted |
No |
Order |
Time |
|||
|
Talk |
Oral abstract |
Title |
Gauge/gravity holography for non- asymptotically AdS spacetimes using Shape Dynamics | |||||
| Co-authors | Tim Koslowski, Lee Smolin, Flavio Mercati, Sean Gryb | |||||||
|
Abstract |
Shape Dynamics is a theory dynamically equivalent to general relativity under some mild restrictions, but with a different set of symmetries, namely, it possesses dilatational symmetry as opposed to refoliation symmetry. Gauge/gravity holographic dualities relate a near boundary expansion of the metric in asymptotically AdS spacetimes in general relativity with a conformal theory at the boundary. It works explicitly only for asymptotically AdS, and for certain very restricted class of spacetime topologies. Using Shape Dynamics we construct a duality which matches that of the usual holographic treatment where the latter applies, but which, in a more adapted conceptual setting, can also be applied to general topologies and does not restrict to asymptotically AdS. |
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Session |
AT4 |
Accepted |
Yes |
Order |
6 |
Time |
15' | |
|
Talk |
Oral abstract |
Title |
Gauge/gravity holography for non- asymptotically AdS spacetimes using Shape Dynamics | |||||
| Co-authors | Tim Koslowski, Lee Smolin, Flavio Mercati, Sean Gryb | |||||||
|
Abstract |
Shape Dynamics is a theory dynamically equivalent to general relativity under some mild restrictions, but with a different set of symmetries, namely, it possesses dilatational symmetry as opposed to refoliation symmetry. Gauge/gravity holographic dualities relate a near boundary expansion of the metric in asymptotically AdS spacetimes in general relativity with a conformal theory at the boundary. Using Shape Dynamics we construct a duality which matches that of the usual holographic treatment where the latter applies, but which, in a more adapted conceptual setting, does not require the usual properties of the near-boundary expansion of asymptotically AdS spacetimes. |
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|
Session |
GT3 |
Accepted |
Yes |
Order |
3 |
Time |
14:30 | |
|
Talk |
Oral abstract |
Title |
Gauge/gravity holography for non- asymptotically AdS spacetimes using Shape Dynamics | |||||
| Co-authors | Tim Koslowski, Lee Smolin, Flavio Mercati, Sean Gryb | |||||||
|
Abstract |
Shape Dynamics is a theory dynamically equivalent to general relativity under some mild restrictions, but with a different set of symmetries, namely, it possesses dilatational symmetry as opposed to refoliation symmetry. Gauge/gravity holographic dualities relate a near boundary expansion of the metric in asymptotically AdS spacetimes in general relativity with a conformal theory at the boundary. It works explicitly only for asymptotically AdS, and for certain very restricted class of spacetime topologies. Using Shape Dynamics we construct a duality which matches that of the usual holographic treatment where the latter applies, but which, in a more adapted conceptual setting, can also be applied to general topologies and does not restrict to asymptotically AdS. |
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