Abstract
1T-TaS2 is unique among transition metal dichalcogenides in that it is understood to be a correlation-driven insulator, where the unpaired electron in a 13-site cluster experiences enough correlation to form a Mott insulator. We argue, based on existing data, that this well-known material should be considered as a quantum spin liquid, either a fully gapped Z2 spin liquid or a Dirac spin liquid. We discuss the exotic states that emerge upon doping and propose further experimental probes.
Funder
NSF | MPS | Division of Materials Research
Research Grants Council, University Grants Committee, Hong Kong
Publisher
Proceedings of the National Academy of Sciences
Cited by
240 articles.
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