Heterogeneous Ta-dichalcogenide bilayer: heavy fermions or doped Mott physics?

DOI

Controlling and understanding electron correlations in quantum matter is one of the most challenging tasks in materials engineering. In the past years a plethora of new puzzling correlated states have been found by carefully stacking and twisting two-dimensional van der Waals materials of different kind. Unique to these stacked structures is the emergence of correlated phases not foreseeable from the single layers alone. In Ta-dichalcogenide heterostructures made of a good metallic 1H- and a Mott-insulating 1T-layer, recent reports have evidenced a cross-breed itinerant and localized nature of the electronic excitations, similar to what is typically found in heavy fermion systems. Here, we put forward a new interpretation based on first-principles calculations which indicates a sizeable charge transfer of electrons (0.4-0.6 e) from 1T to 1H layers at an elevated interlayer distance. We accurately quantify the strength of the interlayer hybridization which allows us to unambiguously determine that the system is much closer to a doped Mott insulator than to a heavy fermion scenario. Ta-based heterolayers provide therefore a new ground for quantum-materials engineering in the regime of heavily doped Mott insulators hybridized with metallic states at a van der Waals distance.

Computer Simulation

Identifier
DOI https://doi.org/10.58160/125
Metadata Access https://www.radar-service.eu/oai/OAIHandler?verb=GetRecord&metadataPrefix=datacite&identifier=10.58160/125
Provenance
Creator Crippa, Lorenzo ORCID logo
Publisher University of Würzburg
Contributor RADAR
Publication Year 2024
Funding Reference Deutsche Forschungsgemeinschaft https://ror.org/018mejw64 ROR 449872909 https://gepris.dfg.de/gepris/projekt/471475673 QUAST FOR 5249; European Research Council https://ror.org/0472cxd90 ROR 815869 https://cordis.europa.eu/project/id/815869 NonlinearTopo; Israel Science Foundation https://ror.org/04sazxf24 ROR 2932/21 Personal Research Grant; Office of Naval Research https://ror.org/01awap711 ROR N00014-23-1-2480
Rights Open Access; Creative Commons Attribution 4.0 International; info:eu-repo/semantics/openAccess; https://creativecommons.org/licenses/by/4.0/legalcode
OpenAccess true
Representation
Language English
Resource Type Dataset
Format application/x-tar
Discipline Natural Sciences; Physics
Temporal Coverage 2023-2024