Simplifying plasma balls and black holes with nonlinear diffusion

Simplifying plasma balls and black holes with nonlinear diffusion

The AdS / CFT dictionary, while still incomplete, hints at deep connections between thermal field theories and the dynamics of black holes. Without specifying a Lagrangian, we develop a non-standard approximation for field theories dominated by thermal noise in order to show that many black hole fea...

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Main Author: Behan, Connor Classen
Language:English
Published: University of British Columbia 2014
Online Access:http://hdl.handle.net/2429/48486
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spelling ndltd-UBC-oai-circle.library.ubc.ca-2429-484862018-01-05T17:27:30Z Simplifying plasma balls and black holes with nonlinear diffusion Behan, Connor Classen The AdS / CFT dictionary, while still incomplete, hints at deep connections between thermal field theories and the dynamics of black holes. Without specifying a Lagrangian, we develop a non-standard approximation for field theories dominated by thermal noise in order to show that many black hole features are universal. Our model is a nonlinear partial differential equation which may be derived, as it was last year, by examining random equilibration of energy on a collection of sites. An extension pairing energy with other conserved quantities is also proposed. For typical holographic gauge theories, the linear versions of our models show that Hagedorn densities of states are associated with long lived lumps of deconfined plasma. With the help of numerical and mathematical results, we show that the nonlinear diffusion properties are more subtle and discuss the implications for using these models to study unsolved problems in holography. Science, Faculty of Physics and Astronomy, Department of Graduate 2014-07-23T17:34:38Z 2014-07-23T17:34:38Z 2014 2014-09 Text Thesis/Dissertation http://hdl.handle.net/2429/48486 eng Attribution 2.5 Canada http://creativecommons.org/licenses/by/2.5/ca/ University of British Columbia
collection NDLTD
language English
sources NDLTD
description The AdS / CFT dictionary, while still incomplete, hints at deep connections between thermal field theories and the dynamics of black holes. Without specifying a Lagrangian, we develop a non-standard approximation for field theories dominated by thermal noise in order to show that many black hole features are universal. Our model is a nonlinear partial differential equation which may be derived, as it was last year, by examining random equilibration of energy on a collection of sites. An extension pairing energy with other conserved quantities is also proposed. For typical holographic gauge theories, the linear versions of our models show that Hagedorn densities of states are associated with long lived lumps of deconfined plasma. With the help of numerical and mathematical results, we show that the nonlinear diffusion properties are more subtle and discuss the implications for using these models to study unsolved problems in holography. === Science, Faculty of === Physics and Astronomy, Department of === Graduate
author Behan, Connor Classen
spellingShingle Behan, Connor Classen
Simplifying plasma balls and black holes with nonlinear diffusion
author_facet Behan, Connor Classen
author_sort Behan, Connor Classen
title Simplifying plasma balls and black holes with nonlinear diffusion
title_short Simplifying plasma balls and black holes with nonlinear diffusion
title_full Simplifying plasma balls and black holes with nonlinear diffusion
title_fullStr Simplifying plasma balls and black holes with nonlinear diffusion
title_full_unstemmed Simplifying plasma balls and black holes with nonlinear diffusion
title_sort simplifying plasma balls and black holes with nonlinear diffusion
publisher University of British Columbia
publishDate 2014
url http://hdl.handle.net/2429/48486
work_keys_str_mv AT behanconnorclassen simplifyingplasmaballsandblackholeswithnonlineardiffusion
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