Vacuum structure of QCD in an effective Langrangian approach

Vacuum structure of QCD in an effective Langrangian approach

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The vacuum structure of QCD is studied using an anomalous effective Lagrangian approach. This approach makes it possible to determine how physical observables depend on the strong CP violation parameter, θ. The θ -dependence of QCD and the phenomenology of the light pseudoscalar mesons in this th...

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Main Author: Fugleberg, Todd Darwin
Language:English
Published: 2009
Online Access:http://hdl.handle.net/2429/11141
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-BVAU.2429-111412014-03-14T15:44:55Z Vacuum structure of QCD in an effective Langrangian approach Fugleberg, Todd Darwin The vacuum structure of QCD is studied using an anomalous effective Lagrangian approach. This approach makes it possible to determine how physical observables depend on the strong CP violation parameter, θ. The θ -dependence of QCD and the phenomenology of the light pseudoscalar mesons in this theory are illustrated. The vacuum structure of QCD is shown to be quite complex with the prediction of a number of different types of nontrivial vacuum states. Two specific examples of nontrivial vacuum states are analysed in more detail. The decay rate of a metastable vacuum state for the θ = 0 case is nonperturbatively calculated in both the zero and high temperature limits. The formation of a nontrivial vacuum state in heavy ion collisions is predicted in a simplified numerical model. These results have implications for the study of the evolution of the early universe near the QCD phase transition and may be tested experimentally very soon in heavy ion collision experiments. 2009-07-23T17:37:16Z 2009-07-23T17:37:16Z 2000 2009-07-23T17:37:16Z 2000-11 Electronic Thesis or Dissertation http://hdl.handle.net/2429/11141 eng UBC Retrospective Theses Digitization Project [http://www.library.ubc.ca/archives/retro_theses/]
collection NDLTD
language English
sources NDLTD
description The vacuum structure of QCD is studied using an anomalous effective Lagrangian approach. This approach makes it possible to determine how physical observables depend on the strong CP violation parameter, θ. The θ -dependence of QCD and the phenomenology of the light pseudoscalar mesons in this theory are illustrated. The vacuum structure of QCD is shown to be quite complex with the prediction of a number of different types of nontrivial vacuum states. Two specific examples of nontrivial vacuum states are analysed in more detail. The decay rate of a metastable vacuum state for the θ = 0 case is nonperturbatively calculated in both the zero and high temperature limits. The formation of a nontrivial vacuum state in heavy ion collisions is predicted in a simplified numerical model. These results have implications for the study of the evolution of the early universe near the QCD phase transition and may be tested experimentally very soon in heavy ion collision experiments.
author Fugleberg, Todd Darwin
spellingShingle Fugleberg, Todd Darwin
Vacuum structure of QCD in an effective Langrangian approach
author_facet Fugleberg, Todd Darwin
author_sort Fugleberg, Todd Darwin
title Vacuum structure of QCD in an effective Langrangian approach
title_short Vacuum structure of QCD in an effective Langrangian approach
title_full Vacuum structure of QCD in an effective Langrangian approach
title_fullStr Vacuum structure of QCD in an effective Langrangian approach
title_full_unstemmed Vacuum structure of QCD in an effective Langrangian approach
title_sort vacuum structure of qcd in an effective langrangian approach
publishDate 2009
url http://hdl.handle.net/2429/11141
work_keys_str_mv AT fuglebergtodddarwin vacuumstructureofqcdinaneffectivelangrangianapproach
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