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A unified diagrammatic approach to topological fixed point models
arXiv
Authors: A. Bauer, J. Eisert, C. Wille
Year
2020
Paper ID
19028
Status
Preprint
Abstract Read
~2 min
Abstract Words
165
Citations
N/A
Abstract
We introduce a systematic mathematical language for describing fixed point models and apply it to the study to topological phases of matter. The framework is reminiscent of state-sum models and lattice topological quantum field theories, but is formalised and unified in terms of tensor networks. In contrast to existing tensor network ansatzes for the study of ground states of topologically ordered phases, the tensor networks in our formalism represent discrete path integrals in Euclidean space-time. This language is more directly related to the Hamiltonian defining the model than other approaches, via a Trotterization of the respective imaginary time evolution. We introduce our formalism by simple examples, and demonstrate its full power by expressing known families of models in 2+1 dimensions in their most general form, namely string-net models and Kitaev quantum doubles based on weak Hopf algebras. To elucidate the versatility of our formalism, we also show how fermionic phases of matter can be described and provide a framework for topological fixed point models in 3+1 dimensions.
Why This Paper Matters
- It adds a 2020 reference point for readers tracking recent quantum research.
- We introduce a systematic mathematical language for describing fixed point models and apply it to the study to topological phases of matter.
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