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Gapped domain walls between 2+1D topologically ordered states

Lan, Tian, Wen, Xueda, Kong, Liang, Wen, Xiao-Gang

2020DSpace@MIT (Massachusetts Institute of Technology)22 citationsOpen Access PDF

Abstract

The 2+1D topological order can be characterized by the mapping-class-group representations for Riemann surfaces of genus-1, genus-2, etc. In this paper, we use those representations to determine the possible gapped boundaries of a 2+1D topological order, as well as the domain walls between two topological orders. We find that mapping-class-group representations for both genus-1 and genus-2 surfaces are needed to determine the gapped domain walls and boundaries. Our systematic theory is based on the fixed-point partition functions for the walls (or the boundaries), which completely characterize the gapped domain walls (or the boundaries). The mapping-class-group representations give rise to conditions that must be satisfied by the fixed-point partition functions, which leads to a systematic theory. Such conditions can be viewed as bulk topological order determining the (non-invertible) gravitational anomaly at the domain wall, and our theory can be viewed as finding all types of the gapped domain wall given a (non-invertible) gravitational anomaly. We also developed a systematic theory of gapped domain walls (boundaries) based on the structure coefficients of condensable algebras.

Topics & Concepts

Domain (mathematical analysis)Invertible matrixGenusPartition function (quantum field theory)Partition (number theory)Topological quantum field theoryClass (philosophy)MathematicsRiemann surfaceGroup (periodic table)Topology (electrical circuits)Order (exchange)Pure mathematicsPhysicsCombinatoricsComputer scienceMathematical analysisQuantum mechanicsEconomicsBiologyFinanceBotanyArtificial intelligenceTopological Materials and PhenomenaQuantum many-body systemsQuantum and electron transport phenomena
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