Statistical mechanics of vortices from field theory

We study with lattice Monte Carlo simulations the interactions and macroscopic behaviour of a large number of vortices in the 3-dimensional U(1) gauge+Higgs field theory, in an external magnetic field. We determine non-perturbatively the (attractive or repelling) interaction energy between two or mo...

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Autores principales: Kajantie, K., Laine, M., Neuhaus, T., Rajantie, A., Rummukainen, K.
Lenguaje:eng
Publicado: 1999
Materias:
Particle Physics - Lattice
Acceso en línea:https://dx.doi.org/10.1016/S0550-3213(99)00464-2
http://cds.cern.ch/record/391772
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author Kajantie, K.
Laine, M.
Neuhaus, T.
Rajantie, A.
Rummukainen, K.
author_facet Kajantie, K.
Laine, M.
Neuhaus, T.
Rajantie, A.
Rummukainen, K.
author_sort Kajantie, K.
collection CERN
description We study with lattice Monte Carlo simulations the interactions and macroscopic behaviour of a large number of vortices in the 3-dimensional U(1) gauge+Higgs field theory, in an external magnetic field. We determine non-perturbatively the (attractive or repelling) interaction energy between two or more vortices, as well as the critical field strength H_c, the thermodynamical discontinuities, and the surface tension related to the boundary between the Meissner phase and the Coulomb phase in the type I region. We also investigate the emergence of vortex lattice and vortex liquid phases in the type II region. For the type I region the results obtained are in qualitative agreement with mean field theory, except for small values of H_c, while in the type II region there are significant discrepancies. These findings are relevant for superconductors and some models of cosmic strings, as well as for the electroweak phase transition in a magnetic field.
id cern-391772
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 1999
record_format invenio
spelling cern-3917722023-03-14T19:57:54Zdoi:10.1016/S0550-3213(99)00464-2http://cds.cern.ch/record/391772engKajantie, K.Laine, M.Neuhaus, T.Rajantie, A.Rummukainen, K.Statistical mechanics of vortices from field theoryParticle Physics - LatticeWe study with lattice Monte Carlo simulations the interactions and macroscopic behaviour of a large number of vortices in the 3-dimensional U(1) gauge+Higgs field theory, in an external magnetic field. We determine non-perturbatively the (attractive or repelling) interaction energy between two or more vortices, as well as the critical field strength H_c, the thermodynamical discontinuities, and the surface tension related to the boundary between the Meissner phase and the Coulomb phase in the type I region. We also investigate the emergence of vortex lattice and vortex liquid phases in the type II region. For the type I region the results obtained are in qualitative agreement with mean field theory, except for small values of H_c, while in the type II region there are significant discrepancies. These findings are relevant for superconductors and some models of cosmic strings, as well as for the electroweak phase transition in a magnetic field.We study with lattice Monte Carlo simulations the interactions and macroscopic behaviour of a large number of vortices in the 3-dimensional U(1) gauge+Higgs field theory, in an external magnetic field. We determine non-perturbatively the (attractive or repelling) interaction energy between two or more vortices, as well as the critical field strength H_c, the thermodynamical discontinuities, and the surface tension related to the boundary between the Meissner phase and the Coulomb phase in the type I region. We also investigate the emergence of vortex lattice and vortex liquid phases in the type II region. For the type I region the results obtained are in qualitative agreement with mean field theory, except for small values of H_c, while in the type II region there are significant discrepancies. These findings are relevant for superconductors and some models of cosmic strings, as well as for the electroweak phase transition in a magnetic field.We study with lattice Monte Carlo simulations the interactions and macroscopic behaviour of a large number of vortices in the 3-dimensional U(1) gauge+Higgs field theory, in an external magnetic field. We determine non-perturbatively the (attractive or repelling) interaction energy between two or more vortices, as well as the critical field strength H_c, the thermodynamical discontinuities, and the surface tension related to the boundary between the Meissner phase and the Coulomb phase in the type I region. We also investigate the emergence of vortex lattice and vortex liquid phases in the type II region. For the type I region the results obtained are in qualitative agreement with mean field theory, except for small values of H_c, while in the type II region there are significant discrepancies. These findings are relevant for superconductors and some models of cosmic strings, as well as for the electroweak phase transition in a magnetic field.We study with lattice Monte Carlo simulations the interactions and macroscopic behaviour of a large number of vortices in the 3-dimensional U(1) gauge+Higgs field theory, in an external magnetic field. We determine non-perturbatively the (attractive or repelling) interaction energy between two or more vortices, as well as the critical field strength H_c, the thermodynamical discontinuities, and the surface tension related to the boundary between the Meissner phase and the Coulomb phase in the type I region. We also investigate the emergence of vortex lattice and vortex liquid phases in the type II region. For the type I region the results obtained are in qualitative agreement with mean field theory, except for small values of H_c, while in the type II region there are significant discrepancies. These findings are relevant for superconductors and some models of cosmic strings, as well as for the electroweak phase transition in a magnetic field.We study with lattice Monte Carlo simulations the interactions and macroscopic behavior of a large number of vortices in the three-dimensional U(1) gauge + Higgs field theory, in an external magnetic field. We determine non-perturbatively the (attractive or repelling) interaction energy between two or more vortices, as well as the critical field strength H c , the thermodynamical discontinuities, and the surface tension related to the boundary between the Meissner phase and the Coulomb phase in the type I region. We also investigate the emergence of vortex lattice and vortex liquid phases in the type II region. For the type I region the results obtained are in qualitative agreement with mean field theory, except for small values of H c , while in the type II region there are significant discrepancies. These findings are relevant for superconductors and some models of cosmic strings, as well as for the electroweak phase transition in a magnetic field.hep-lat/9906028CERN-TH-99-168NORDITA-99-24-HEHIP-98-085-THCERN-TH-99-168NORDITA-99-24-HEHIP-1998-85-THoai:cds.cern.ch:3917721999-06-28
spellingShingle Particle Physics - Lattice
Kajantie, K.
Laine, M.
Neuhaus, T.
Rajantie, A.
Rummukainen, K.
Statistical mechanics of vortices from field theory
title Statistical mechanics of vortices from field theory
title_full Statistical mechanics of vortices from field theory
title_fullStr Statistical mechanics of vortices from field theory
title_full_unstemmed Statistical mechanics of vortices from field theory
title_short Statistical mechanics of vortices from field theory
title_sort statistical mechanics of vortices from field theory
topic Particle Physics - Lattice
url https://dx.doi.org/10.1016/S0550-3213(99)00464-2
http://cds.cern.ch/record/391772
work_keys_str_mv AT kajantiek statisticalmechanicsofvorticesfromfieldtheory
AT lainem statisticalmechanicsofvorticesfromfieldtheory
AT neuhaust statisticalmechanicsofvorticesfromfieldtheory
AT rajantiea statisticalmechanicsofvorticesfromfieldtheory
AT rummukainenk statisticalmechanicsofvorticesfromfieldtheory

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