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Multicanonical cluster algorithm and the 2-D 7-state Potts model
I present a hybrid-like two-step algorithm, which combines a microcanonical update of a spin system using demons, with a multicanonical demon refresh. The algorithm is free from the supercritical slowing down that burdens the canonical methods: the exponential increase of the tunnelling time between...
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| Lenguaje: | eng |
| Publicado: |
1993
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| Acceso en línea: | https://dx.doi.org/10.1016/0550-3213(93)90491-7 http://cds.cern.ch/record/241378 |
| _version_ | 1780884995407085568 |
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| author | Rummukainen, K. |
| author_facet | Rummukainen, K. |
| author_sort | Rummukainen, K. |
| collection | CERN |
| description | I present a hybrid-like two-step algorithm, which combines a microcanonical update of a spin system using demons, with a multicanonical demon refresh. The algorithm is free from the supercritical slowing down that burdens the canonical methods: the exponential increase of the tunnelling time between the metastable states in the first-order phase transitions, when the volume of the system is increased. The demons act as a buffer between the multicanonical heat bath and the spin system, allowing the spin system to be updated with any microcanonical demon procedure, including cluster methods. The cluster algorithm is demonstrated with the 2-dimensional 7-state Potts model, using volumes up to $128^2$. The tunnelling time is found to increase as $L^{1.82}$, where $L$ is the linear dimension of the system. |
| id | cern-241378 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 1993 |
| record_format | invenio |
| spelling | cern-2413782022-07-06T02:26:36Zdoi:10.1016/0550-3213(93)90491-7http://cds.cern.ch/record/241378engRummukainen, K.Multicanonical cluster algorithm and the 2-D 7-state Potts modelParticle Physics - LatticeI present a hybrid-like two-step algorithm, which combines a microcanonical update of a spin system using demons, with a multicanonical demon refresh. The algorithm is free from the supercritical slowing down that burdens the canonical methods: the exponential increase of the tunnelling time between the metastable states in the first-order phase transitions, when the volume of the system is increased. The demons act as a buffer between the multicanonical heat bath and the spin system, allowing the spin system to be updated with any microcanonical demon procedure, including cluster methods. The cluster algorithm is demonstrated with the 2-dimensional 7-state Potts model, using volumes up to $128^2$. The tunnelling time is found to increase as $L^{1.82}$, where $L$ is the linear dimension of the system.I present a hybrid-like two-step algorithm, which combines a microcanonical update of a spin system using demons, with a multicanonical demon refresh. The algorithm is free from the supercritical slowing down that burdens the canonical methods: the exponential increase of the tunnelling time between the metastable states in the first-order phase transitions, when the volume of the system is increased. The demons act as a buffer between the multicanonical heat bath and the spin system, allowing the spin system to be updated with any microcanonical demon procedure, including cluster methods. The cluster algorithm is demonstrated with the 2-dimensional 7-state Potts model, using volumes up to $128~2$. The tunnelling time is found to increase as $L~{1.82}$, where $L$ is the linear dimension of the system.I present a hybrid-like two-step algorithm, which combines a microcanonical update of a spin system using demons, with a multicanonical demon refresh. The algorithm is free from the supercritical slowing down that burdens the canonical methods: the exponential increase of the tunnelling time between the metastable states in the first-order phase transitions, when the volume of the system is increased. The demons act as a buffer between the multicanonical heat bath and the spin system, allowing the spin system to be updated with any microcanonical demon procedure, including cluster methods. The cluster algorithm is demonstrated with the 2-dimensional 7-state Potts model, using volumes up to $128~2$. The tunnelling time is found to increase as $L~{1.82}$, where $L$ is the linear dimension of the system.I present a hybrid-like two-step algorithm, which combines a microcanonical update of a spin system using demons, with a multicanonical demon refresh. The algorithm is free from the supercritical slowing down that burdens the canonical methods: the exponential increase of the tunnelling time between the metastable states in the first-order phase transitions, when the volume of the system is increased. The demons act as a buffer between the multicanonical heat bath and the spin system, allowing the spin system to be updated with any microcanonical demon procedure, including cluster methods. The cluster algorithm is demonstrated with the 2-dimensional 7-state Potts model, using volumes up to $128~2$. The tunnelling time is found to increase as $L~{1.82}$, where $L$ is the linear dimension of the system.I present a hybrid-like two-step algorithm, which combines a microcanonical update of a spin system using demons, with a multicanonical demon refresh. The algorithm is free from the supercritical slowing down that burdens the canonical methods: the exponential increase of the tunnelling time between the metastable states in the first-order phase transitions, when the volume of the system is increased. The demons act as a buffer between the multicanonical heat bath and the spin system, allowing the spin system to be updated with any microcanonical demon procedure, including cluster methods. The cluster algorithm is demonstrated with the 2-dimensional 7-state Potts model, using volumes up to $128~2$. The tunnelling time is found to increase as $L~{1.82}$, where $L$ is the linear dimension of the system.I present a hybrid-like two-step algorithm, which combines a microcanonical update of a spin system using demons, with a multicanonical demon refressh. The algorithm is free from the supercritical slowing down that burdens the canonical methods: the exponential increase of the tunnelling time between the metastable states in the first-order phase transitions, when the volume of the system is increased. The demons act as a buffer between the multicanonical heat bath and the spin system, allowing the spin system to be updated with any microcanonical demon procedure, including cluster methods. The cluster algorithm is demonstrated with the two-dimensional 7-state Potts model, using volumes up to 128 2 . The tunnelling time is found to increase as L 1.82 , where L is the linear dimension of the system.hep-lat/9209024CERN-TH-6654-92CERN-TH-6654-92oai:cds.cern.ch:2413781993 |
| spellingShingle | Particle Physics - Lattice Rummukainen, K. Multicanonical cluster algorithm and the 2-D 7-state Potts model |
| title | Multicanonical cluster algorithm and the 2-D 7-state Potts model |
| title_full | Multicanonical cluster algorithm and the 2-D 7-state Potts model |
| title_fullStr | Multicanonical cluster algorithm and the 2-D 7-state Potts model |
| title_full_unstemmed | Multicanonical cluster algorithm and the 2-D 7-state Potts model |
| title_short | Multicanonical cluster algorithm and the 2-D 7-state Potts model |
| title_sort | multicanonical cluster algorithm and the 2-d 7-state potts model |
| topic | Particle Physics - Lattice |
| url | https://dx.doi.org/10.1016/0550-3213(93)90491-7 http://cds.cern.ch/record/241378 |
| work_keys_str_mv | AT rummukainenk multicanonicalclusteralgorithmandthe2d7statepottsmodel |