Lattice model constructions for gapless domain walls between topological phases

Chenfeng Bao; Shuo Yang; Chenjie Wang; Zheng-Cheng Gu

Lattice model constructions for gapless domain walls between topological phases

Chenfeng Bao, Shuo Yang, Chenjie Wang, Zheng-Cheng Gu

Research output: Working Papers › Working paper

Abstract

Lattice models of gapless domain walls between twisted and untwisted gauge theories of finite group G are constructed systematically. As simple examples, we numerically studied the gapless domain walls between twisted and untwisted

Z_N(with N < 6) gauge models in 2 + 1D using the state-of-art loop optimization of tensor network renormalization algorithm. We also studied the physical mechanism for these gapless domain walls and obtained quantum field theory descriptions that agree perfectly with our numerical results. By taking the advantage of the systematic classification and construction of twisted gauge models using group cohomology theory, we systematically construct general lattice models to realize gapless domain walls for arbitrary finite symmetry group G. Such constructions can be generalized into arbitrary dimensions and might provide us a systematical way to study gapless domain walls and topological quantum phase transitions.

Original language	English
Publisher	Cornell University
Number of pages	16
Publication status	Published - 3 Jan 2018
Externally published	Yes

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Name	arXiv

Research Keywords

cond-mat.str-el

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title = "Lattice model constructions for gapless domain walls between topological phases",

abstract = "Lattice models of gapless domain walls between twisted and untwisted gauge theories of finite group G are constructed systematically. As simple examples, we numerically studied the gapless domain walls between twisted and untwisted ZN (with N < 6) gauge models in 2 + 1D using the state-of-art loop optimization of tensor network renormalization algorithm. We also studied the physical mechanism for these gapless domain walls and obtained quantum field theory descriptions that agree perfectly with our numerical results. By taking the advantage of the systematic classification and construction of twisted gauge models using group cohomology theory, we systematically construct general lattice models to realize gapless domain walls for arbitrary finite symmetry group G. Such constructions can be generalized into arbitrary dimensions and might provide us a systematical way to study gapless domain walls and topological quantum phase transitions. ",

keywords = "cond-mat.str-el",

author = "Chenfeng Bao and Shuo Yang and Chenjie Wang and Zheng-Cheng Gu",

year = "2018",

month = jan,

day = "3",

language = "English",

series = "arXiv",

publisher = "Cornell University",

address = "United States",

type = "WorkingPaper",

institution = "Cornell University",

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TY - UNPB

T1 - Lattice model constructions for gapless domain walls between topological phases

AU - Bao, Chenfeng

AU - Yang, Shuo

AU - Wang, Chenjie

AU - Gu, Zheng-Cheng

PY - 2018/1/3

Y1 - 2018/1/3

N2 - Lattice models of gapless domain walls between twisted and untwisted gauge theories of finite group G are constructed systematically. As simple examples, we numerically studied the gapless domain walls between twisted and untwisted ZN (with N < 6) gauge models in 2 + 1D using the state-of-art loop optimization of tensor network renormalization algorithm. We also studied the physical mechanism for these gapless domain walls and obtained quantum field theory descriptions that agree perfectly with our numerical results. By taking the advantage of the systematic classification and construction of twisted gauge models using group cohomology theory, we systematically construct general lattice models to realize gapless domain walls for arbitrary finite symmetry group G. Such constructions can be generalized into arbitrary dimensions and might provide us a systematical way to study gapless domain walls and topological quantum phase transitions.

AB - Lattice models of gapless domain walls between twisted and untwisted gauge theories of finite group G are constructed systematically. As simple examples, we numerically studied the gapless domain walls between twisted and untwisted ZN (with N < 6) gauge models in 2 + 1D using the state-of-art loop optimization of tensor network renormalization algorithm. We also studied the physical mechanism for these gapless domain walls and obtained quantum field theory descriptions that agree perfectly with our numerical results. By taking the advantage of the systematic classification and construction of twisted gauge models using group cohomology theory, we systematically construct general lattice models to realize gapless domain walls for arbitrary finite symmetry group G. Such constructions can be generalized into arbitrary dimensions and might provide us a systematical way to study gapless domain walls and topological quantum phase transitions.

KW - cond-mat.str-el

M3 - Working paper

T3 - arXiv

BT - Lattice model constructions for gapless domain walls between topological phases

PB - Cornell University

ER -

Lattice model constructions for gapless domain walls between topological phases

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