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Anyons and matrix product operator algebras

Autor(en)
N. Bultinck, M. Marien, Dominic Williamson, M. B. Sahinoglu, J. Haegeman, F. Verstraete
Abstrakt

Quantum tensor network states and more particularly projected entangled-pair states provide a natural framework for representing ground states of gapped, topologically ordered systems. The defining feature of these representations is that topological order is a consequence of the symmetry of the underlying tensors in terms of matrix product operators. In this paper, we present a systematic study of those matrix product operators, and show how this relates entanglement properties of projected entangled-pair states to the formalism of fusion tensor categories. From the matrix product operators we construct a C

-algebra and find that topological sectors can be identified with the central idempotents of this algebra. This allows us to construct projected entangled-pair states containing an arbitrary number of anyons. Properties such as topological spin, the S matrix, fusion and braiding relations can readily be extracted from the idempotents. As the matrix product operator symmetries are acting purely on the virtual level of the tensor network, the ensuing Wilson loops are not fattened when perturbing the system, and this opens up the possibility of simulating topological theories away from renormalization group fixed points. We illustrate the general formalism for the special cases of discrete gauge theories and string-net models.

Organisation(en)
Quantenoptik, Quantennanophysik und Quanteninformation
Externe Organisation(en)
Ghent University
Journal
Annals of Physics
Band
378
Seiten
183-233
Anzahl der Seiten
51
ISSN
0003-4916
DOI
https://doi.org/10.1016/j.aop.2017.01.004
Publikationsdatum
03-2017
Peer-reviewed
Ja
ÖFOS 2012
103024 Quantenfeldtheorie
Schlagwörter
ASJC Scopus Sachgebiete
Allgemeine Physik und Astronomie
Link zum Portal
https://ucrisportal.univie.ac.at/de/publications/d2f1afe0-66c4-48fb-b098-e7a1788b8adf