Journal
REPORTS ON PROGRESS IN PHYSICS
Volume 81, Issue 11, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/1361-6633/aad6a6
Keywords
topological insulators; electron-electron interactions; fractionalization; symmetry protected topological order; topological order; Chern insulator; topological Hubbard model
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Funding
- German Research Foundation (DFG) [SPP 1666, SFB 1143]
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The discovery of the quantum spin Hall effect and topological insulators more than a decade ago has revolutionized modern condensed matter physics. Today, the field of topological states of matter is one of the most active and fruitful research areas for both experimentalists and theorists. The physics of topological insulators is typically well described by band theory and systems of non-interacting fermions. In contrast, several of the most fascinating effects in condensed matter physics merely exist due to electron-electron interactions, examples include unconventional superconductivity, the Kondo effect, and the Mott-Hubbard transition. The aim of this review article is to give an overview of the manifold directions which emerge when topological bandstructures and correlation physics interfere and compete. These include the study of the stability of topological bandstructures and correlated topological insulators. Interaction-induced topological phases such as the topological Kondo insulator provide another exciting topic. More exotic states of matter such as topological Mott insulator and fractional Chern insulators only exist due to the interplay of topology and strong interactions and do not have any bandstructure analogue. Eventually the relation between topological bandstructures and frustrated quantum magnetism in certain transition metal oxides is emphasized.
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