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Vortex tension as an order parameter in three-dimensional U(1)+Higgs theory
We use lattice Monte Carlo simulations to study non-perturbatively the tension, i.e. the free energy per unit length, of an infinitely long vortex in the three-dimensional U(1)+Higgs theory. This theory is the low-energy effective theory of high-temperature scalar electrodynamics, the standard frame...
| Autores principales: | , , , , , |
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| Lenguaje: | eng |
| Publicado: |
1998
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/S0550-3213(99)00033-4 http://cds.cern.ch/record/364819 |
| _version_ | 1780892861702602752 |
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| author | Kajantie, K. Laine, M. Neuhaus, T. Peisa, J. Rajantie, A. Rummukainen, K. |
| author_facet | Kajantie, K. Laine, M. Neuhaus, T. Peisa, J. Rajantie, A. Rummukainen, K. |
| author_sort | Kajantie, K. |
| collection | CERN |
| description | We use lattice Monte Carlo simulations to study non-perturbatively the tension, i.e. the free energy per unit length, of an infinitely long vortex in the three-dimensional U(1)+Higgs theory. This theory is the low-energy effective theory of high-temperature scalar electrodynamics, the standard framework for cosmic string studies. The vortex tension is measured as a function of the mass parameter at a large value of the Higgs self-coupling, where the transition between the phases is continuous. It is shown that the tension gives an order parameter that can distinguish between the two phases of the system. We argue that the vortex tension can describe the physics of long strings without lattice artifacts, unlike vortex network percolation. |
| id | cern-364819 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 1998 |
| record_format | invenio |
| spelling | cern-3648192023-03-14T20:35:12Zdoi:10.1016/S0550-3213(99)00033-4http://cds.cern.ch/record/364819engKajantie, K.Laine, M.Neuhaus, T.Peisa, J.Rajantie, A.Rummukainen, K.Vortex tension as an order parameter in three-dimensional U(1)+Higgs theoryParticle Physics - PhenomenologyWe use lattice Monte Carlo simulations to study non-perturbatively the tension, i.e. the free energy per unit length, of an infinitely long vortex in the three-dimensional U(1)+Higgs theory. This theory is the low-energy effective theory of high-temperature scalar electrodynamics, the standard framework for cosmic string studies. The vortex tension is measured as a function of the mass parameter at a large value of the Higgs self-coupling, where the transition between the phases is continuous. It is shown that the tension gives an order parameter that can distinguish between the two phases of the system. We argue that the vortex tension can describe the physics of long strings without lattice artifacts, unlike vortex network percolation.We use lattice Monte Carlo simulations to study non-perturbatively the tension, i.e. the free energy per unit length, of an infinitely long vortex in the three-dimensional U(1)+Higgs theory. This theory is the low-energy effective theory of high-temperature scalar electrodynamics, the standard framework for cosmic string studies. The vortex tension is measured as a function of the mass parameter at a large value of the Higgs self-coupling, where the transition between the phases is continuous. It is shown that the tension gives an order parameter that can distinguish between the two phases of the system. We argue that the vortex tension can describe the physics of long strings without lattice artifacts, unlike vortex network percolation.We use lattice Monte Carlo simulations to study non-perturbatively the tension, i.e. the free energy per unit length, of an infinitely long vortex in the three-dimensional U(1)+Higgs theory. This theory is the low-energy effective theory of high-temperature scalar electrodynamics, the standard framework for cosmic string studies. The vortex tension is measured as a function of the mass parameter at a large value of the Higgs self-coupling, where the transition between the phases is continuous. It is shown that the tension gives an order parameter that can distinguish between the two phases of the system. We argue that the vortex tension can describe the physics of long strings without lattice artifacts, unlike vortex network percolation.We use lattice Monte Carlo simulations to study non-perturbatively the tension, i.e. the free energy per unit length, of an infinitely long vortex in the three-dimensional U(1)+Higgs theory. This theory is the low-energy effective theory of high-temperature scalar electrodynamics, the standard framework for cosmic string studies. The vortex tension is measured as a function of the mass parameter at a large value of the Higgs self-coupling, where the transition between the phases is continuous. It is shown that the tension gives an order parameter that can distinguish between the two phases of the system. We argue that the vortex tension can describe the physics of long strings without lattice artifacts, unlike vortex network percolation.We use lattice Monte Carlo simulations to study non-perturbatively the tension, i.e. the free energy per unit length, of an infinitely long vortex in the three-dimensional U(1) + Higgs theory. This theory is the low-energy effective theory of high-temperature scalar electrodynamics, the standard framework for cosmic string studies. The vortex tension is measured as a function of the mass parameter at a large value of the Higgs self-coupling, where the transition between the phases is continuous. It is shown that the tension gives an order parameter that can distinguish between the two phases of the system. We argue that the vortex tension can describe the physics of long strings without lattice artifacts, unlike vortex network percolation.hep-ph/9809334CERN-TH-98-295HIP-1998-60-THCERN-TH-98-295HIP-1998-60-THoai:cds.cern.ch:3648191998-09-14 |
| spellingShingle | Particle Physics - Phenomenology Kajantie, K. Laine, M. Neuhaus, T. Peisa, J. Rajantie, A. Rummukainen, K. Vortex tension as an order parameter in three-dimensional U(1)+Higgs theory |
| title | Vortex tension as an order parameter in three-dimensional U(1)+Higgs theory |
| title_full | Vortex tension as an order parameter in three-dimensional U(1)+Higgs theory |
| title_fullStr | Vortex tension as an order parameter in three-dimensional U(1)+Higgs theory |
| title_full_unstemmed | Vortex tension as an order parameter in three-dimensional U(1)+Higgs theory |
| title_short | Vortex tension as an order parameter in three-dimensional U(1)+Higgs theory |
| title_sort | vortex tension as an order parameter in three-dimensional u(1)+higgs theory |
| topic | Particle Physics - Phenomenology |
| url | https://dx.doi.org/10.1016/S0550-3213(99)00033-4 http://cds.cern.ch/record/364819 |
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