Emergence of Gauss' law in a Z2 lattice gauge theory in 1 + 1 dimensions

Emergence of Gauss' law in a Z2 lattice gauge theory in 1 + 1 dimensions

We explore a Z2 Hamiltonian lattice gauge theory in one spatial dimension with a coupling h, without imposing any Gauss' law constraint. We show that in our model h=0 is a free deconfined quantum critical point containing massless fermions where all Gauss' law sectors are equivalent. The c...

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Main Authors: Jernej Frank, Emilie Huffman, Shailesh Chandrasekharan
Format: Article
Language:English
Published: Elsevier 2020-07-01
Series:Physics Letters B
Online Access:http://www.sciencedirect.com/science/article/pii/S0370269320302884
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spelling doaj-30ad2db6aea84960ac49366c8bfb6afa2020-11-25T03:38:30ZengElsevierPhysics Letters B0370-26932020-07-01806135484Emergence of Gauss' law in a Z2 lattice gauge theory in 1 + 1 dimensionsJernej Frank0Emilie Huffman1Shailesh Chandrasekharan2Department of Physics, Box 90305, Duke University, Durham, NC 27708, USAUniversity of Wurzburg, Germany; Corresponding author.Department of Physics, Box 90305, Duke University, Durham, NC 27708, USAWe explore a Z2 Hamiltonian lattice gauge theory in one spatial dimension with a coupling h, without imposing any Gauss' law constraint. We show that in our model h=0 is a free deconfined quantum critical point containing massless fermions where all Gauss' law sectors are equivalent. The coupling h is a relevant perturbation of this critical point and fermions become massive due to confinement and chiral symmetry breaking. To study the emergent Gauss' law sectors at low temperatures in this massive phase we use a quantum Monte Carlo method that samples configurations of the partition function written in a basis in which local conserved charges are diagonal. We find that two Gauss' law sectors, related by particle-hole symmetry, emerge naturally. When the system is doped with an extra particle, many more Gauss's law sectors related by translation invariance emerge. Using results in the range 0.01<h≤0.15 we find that three different mass scales of the model behave like hp where p≈0.579.http://www.sciencedirect.com/science/article/pii/S0370269320302884
collection DOAJ
language English
format Article
sources DOAJ
author Jernej Frank
Emilie Huffman
Shailesh Chandrasekharan
spellingShingle Jernej Frank
Emilie Huffman
Shailesh Chandrasekharan
Emergence of Gauss' law in a Z2 lattice gauge theory in 1 + 1 dimensions
Physics Letters B
author_facet Jernej Frank
Emilie Huffman
Shailesh Chandrasekharan
author_sort Jernej Frank
title Emergence of Gauss' law in a Z2 lattice gauge theory in 1 + 1 dimensions
title_short Emergence of Gauss' law in a Z2 lattice gauge theory in 1 + 1 dimensions
title_full Emergence of Gauss' law in a Z2 lattice gauge theory in 1 + 1 dimensions
title_fullStr Emergence of Gauss' law in a Z2 lattice gauge theory in 1 + 1 dimensions
title_full_unstemmed Emergence of Gauss' law in a Z2 lattice gauge theory in 1 + 1 dimensions
title_sort emergence of gauss' law in a z2 lattice gauge theory in 1 + 1 dimensions
publisher Elsevier
series Physics Letters B
issn 0370-2693
publishDate 2020-07-01
description We explore a Z2 Hamiltonian lattice gauge theory in one spatial dimension with a coupling h, without imposing any Gauss' law constraint. We show that in our model h=0 is a free deconfined quantum critical point containing massless fermions where all Gauss' law sectors are equivalent. The coupling h is a relevant perturbation of this critical point and fermions become massive due to confinement and chiral symmetry breaking. To study the emergent Gauss' law sectors at low temperatures in this massive phase we use a quantum Monte Carlo method that samples configurations of the partition function written in a basis in which local conserved charges are diagonal. We find that two Gauss' law sectors, related by particle-hole symmetry, emerge naturally. When the system is doped with an extra particle, many more Gauss's law sectors related by translation invariance emerge. Using results in the range 0.01<h≤0.15 we find that three different mass scales of the model behave like hp where p≈0.579.
url http://www.sciencedirect.com/science/article/pii/S0370269320302884
work_keys_str_mv AT jernejfrank emergenceofgausslawinaz2latticegaugetheoryin11dimensions
AT emiliehuffman emergenceofgausslawinaz2latticegaugetheoryin11dimensions
AT shaileshchandrasekharan emergenceofgausslawinaz2latticegaugetheoryin11dimensions
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