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Conference Paper/Proceeding/Abstract 756 views

Interface tension of the 3d 4-state Potts model using the Wang-Landau algorithm

Ari Hietanen, Biagio Lucini Orcid Logo

Volume: "LATTICE2011", Start page: 034

Swansea University Author: Biagio Lucini Orcid Logo

Abstract

We study the interface tension of the 4-state Potts model in three dimensions using the Wang- Landau algorithm. The interface tension is given by the ratio of the partition function with a twisted boundary condition in one direction and periodic boundary conditions in all other directions over the p...

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Published: 2011
Online Access: http://inspirehep.net/record/946822
URI: https://cronfa.swan.ac.uk/Record/cronfa27919
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spelling 2016-05-14T16:42:03.2114352 v2 27919 2016-05-14 Interface tension of the 3d 4-state Potts model using the Wang-Landau algorithm 7e6fcfe060e07a351090e2a8aba363cf 0000-0001-8974-8266 Biagio Lucini Biagio Lucini true false 2016-05-14 SMA We study the interface tension of the 4-state Potts model in three dimensions using the Wang- Landau algorithm. The interface tension is given by the ratio of the partition function with a twisted boundary condition in one direction and periodic boundary conditions in all other directions over the partition function with periodic boundary conditions in all directions. With the Wang-Landau algorithm we can explicitly calculate both partition functions and obtain the result for all temperatures. We find solid numerical evidence for perfect wetting. Our algorithm is tested by calculating thermodynamic quantities at the phase transition point. Conference Paper/Proceeding/Abstract "LATTICE2011" 034 30 11 2011 2011-11-30 http://inspirehep.net/record/946822 COLLEGE NANME Mathematics COLLEGE CODE SMA Swansea University 2016-05-14T16:42:03.2114352 2016-05-14T16:42:03.2114352 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics Ari Hietanen 1 Biagio Lucini 0000-0001-8974-8266 2
title Interface tension of the 3d 4-state Potts model using the Wang-Landau algorithm
spellingShingle Interface tension of the 3d 4-state Potts model using the Wang-Landau algorithm
Biagio Lucini
title_short Interface tension of the 3d 4-state Potts model using the Wang-Landau algorithm
title_full Interface tension of the 3d 4-state Potts model using the Wang-Landau algorithm
title_fullStr Interface tension of the 3d 4-state Potts model using the Wang-Landau algorithm
title_full_unstemmed Interface tension of the 3d 4-state Potts model using the Wang-Landau algorithm
title_sort Interface tension of the 3d 4-state Potts model using the Wang-Landau algorithm
author_id_str_mv 7e6fcfe060e07a351090e2a8aba363cf
author_id_fullname_str_mv 7e6fcfe060e07a351090e2a8aba363cf_***_Biagio Lucini
author Biagio Lucini
author2 Ari Hietanen
Biagio Lucini
format Conference Paper/Proceeding/Abstract
container_volume "LATTICE2011"
container_start_page 034
publishDate 2011
institution Swansea University
college_str Faculty of Science and Engineering
hierarchytype
hierarchy_top_id facultyofscienceandengineering
hierarchy_top_title Faculty of Science and Engineering
hierarchy_parent_id facultyofscienceandengineering
hierarchy_parent_title Faculty of Science and Engineering
department_str School of Biosciences, Geography and Physics - Physics{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Physics
url http://inspirehep.net/record/946822
document_store_str 0
active_str 0
description We study the interface tension of the 4-state Potts model in three dimensions using the Wang- Landau algorithm. The interface tension is given by the ratio of the partition function with a twisted boundary condition in one direction and periodic boundary conditions in all other directions over the partition function with periodic boundary conditions in all directions. With the Wang-Landau algorithm we can explicitly calculate both partition functions and obtain the result for all temperatures. We find solid numerical evidence for perfect wetting. Our algorithm is tested by calculating thermodynamic quantities at the phase transition point.
published_date 2011-11-30T03:33:54Z
_version_ 1763751424627310592
score 11.013799

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