Dual simulation of the 2d U(1) gauge Higgs model at topological angle θ = π: Critical endpoint behavior

Dual simulation of the 2d U(1) gauge Higgs model at topological angle θ = π: Critical endpoint behavior

We simulate the 2d U(1) gauge Higgs model on the lattice with a topological angle θ. The corresponding complex action problem is overcome by using a dual representation based on the Villain action appropriately endowed with a θ-term. The Villain action is interpreted as a non-compact gauge theory wh...

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Main Authors: Christof Gattringer, Daniel Göschl, Tin Sulejmanpašić
Format: Article
Language:English
Published: Elsevier 2018-10-01
Series:Nuclear Physics B
Online Access:http://www.sciencedirect.com/science/article/pii/S055032131830244X
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spelling doaj-e54edbbd9c324ac2b3ae69e9b8bb3b202020-11-25T01:30:42ZengElsevierNuclear Physics B0550-32132018-10-01935344364Dual simulation of the 2d U(1) gauge Higgs model at topological angle θ = π: Critical endpoint behaviorChristof Gattringer0Daniel Göschl1Tin Sulejmanpašić2University of Graz, Institute for Physics, A-8010 Graz, Austria; Corresponding author.University of Graz, Institute for Physics, A-8010 Graz, AustriaPhilippe Meyer Institute, Physics Department, École Normale Supérieure, PSL Research University, 24 rue Lhomond, F-75231 Paris Cedex 05, FranceWe simulate the 2d U(1) gauge Higgs model on the lattice with a topological angle θ. The corresponding complex action problem is overcome by using a dual representation based on the Villain action appropriately endowed with a θ-term. The Villain action is interpreted as a non-compact gauge theory whose center symmetry is gauged and has the advantage that the topological term is correctly quantized so that 2π periodicity in θ is intact. Because of this the θ=π theory has an exact Z2 charge-conjugation symmetry C, which is spontaneously broken when the mass-squared of the scalars is large and positive. Lowering the mass squared the symmetry becomes restored in a second order phase transition. Simulating the system at θ=π in its dual form we determine the corresponding critical endpoint as a function of the mass parameter. Using a finite size scaling analysis we determine the critical exponents and show that the transition is in the 2d Ising universality class, as expected.http://www.sciencedirect.com/science/article/pii/S055032131830244X
collection DOAJ
language English
format Article
sources DOAJ
author Christof Gattringer
Daniel Göschl
Tin Sulejmanpašić
spellingShingle Christof Gattringer
Daniel Göschl
Tin Sulejmanpašić
Dual simulation of the 2d U(1) gauge Higgs model at topological angle θ = π: Critical endpoint behavior
Nuclear Physics B
author_facet Christof Gattringer
Daniel Göschl
Tin Sulejmanpašić
author_sort Christof Gattringer
title Dual simulation of the 2d U(1) gauge Higgs model at topological angle θ = π: Critical endpoint behavior
title_short Dual simulation of the 2d U(1) gauge Higgs model at topological angle θ = π: Critical endpoint behavior
title_full Dual simulation of the 2d U(1) gauge Higgs model at topological angle θ = π: Critical endpoint behavior
title_fullStr Dual simulation of the 2d U(1) gauge Higgs model at topological angle θ = π: Critical endpoint behavior
title_full_unstemmed Dual simulation of the 2d U(1) gauge Higgs model at topological angle θ = π: Critical endpoint behavior
title_sort dual simulation of the 2d u(1) gauge higgs model at topological angle θ = π: critical endpoint behavior
publisher Elsevier
series Nuclear Physics B
issn 0550-3213
publishDate 2018-10-01
description We simulate the 2d U(1) gauge Higgs model on the lattice with a topological angle θ. The corresponding complex action problem is overcome by using a dual representation based on the Villain action appropriately endowed with a θ-term. The Villain action is interpreted as a non-compact gauge theory whose center symmetry is gauged and has the advantage that the topological term is correctly quantized so that 2π periodicity in θ is intact. Because of this the θ=π theory has an exact Z2 charge-conjugation symmetry C, which is spontaneously broken when the mass-squared of the scalars is large and positive. Lowering the mass squared the symmetry becomes restored in a second order phase transition. Simulating the system at θ=π in its dual form we determine the corresponding critical endpoint as a function of the mass parameter. Using a finite size scaling analysis we determine the critical exponents and show that the transition is in the 2d Ising universality class, as expected.
url http://www.sciencedirect.com/science/article/pii/S055032131830244X
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AT danielgoschl dualsimulationofthe2du1gaugehiggsmodelattopologicalanglethpcriticalendpointbehavior
AT tinsulejmanpasic dualsimulationofthe2du1gaugehiggsmodelattopologicalanglethpcriticalendpointbehavior
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