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W3120705773 abstract "Tensor network states have been a very prominent tool for the study of quantum many-body physics, thanks to their physically relevant entanglement properties and their ability to encode symmetries. In the last few years, the formalism has been extended and applied to theories with local symmetries too---lattice gauge theories. In order to extract physical properties (such as expectation values and correlation functions of physical observables) out of such states, one has to use the so-called transfer operators, the local properties of which dictate the long-range behavior of the state. In this paper we study transfer operators of tensor network states (in particular, projected entangled pair states) of lattice gauge theories, and consider the implications of the local symmetry on their structure and properties. In particular, we study the implications on the computation of the Wilson loop---a nonlocal, gauge-invariant observable which is central to pure gauge theories, the long-range decay behavior of which probes the confinement or deconfinement of static charges. Using the symmetry, we show how to simplify the tensor contraction required for computing Wilson loop expectation values for such states, eliminate nonphysical parts of the tensors, and formulate conditions relating local properties (that is, of the tensors) to their decay fashion." @default.
W3120705773 created "2021-01-18" @default.
W3120705773 creator A5001091267 @default.
W3120705773 date "2021-08-20" @default.
W3120705773 modified "2023-10-16" @default.
W3120705773 title "Wilson loops and area laws in lattice gauge theory tensor networks" @default.
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W3120705773 doi "https://doi.org/10.1103/physrevresearch.3.033179" @default.
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