Exciton-driven antiferromagnetic metal in a correlated van der Waals insulator

Author:

Belvin Carina A.ORCID,Baldini EdoardoORCID,Ozel Ilkem Ozge,Mao Dan,Po Hoi Chun,Allington Clifford J.ORCID,Son Suhan,Kim Beom Hyun,Kim JonghyeonORCID,Hwang Inho,Kim Jae HoonORCID,Park Je-GeunORCID,Senthil T.,Gedik NuhORCID

Abstract

AbstractCollective excitations of bound electron-hole pairs—known as excitons—are ubiquitous in condensed matter, emerging in systems as diverse as band semiconductors, molecular crystals, and proteins. Recently, their existence in strongly correlated electron materials has attracted increasing interest due to the excitons’ unique coupling to spin and orbital degrees of freedom. The non-equilibrium driving of such dressed quasiparticles offers a promising platform for realizing unconventional many-body phenomena and phases beyond thermodynamic equilibrium. Here, we achieve this in the van der Waals correlated insulator NiPS3 by photoexciting its newly discovered spin–orbit-entangled excitons that arise from Zhang-Rice states. By monitoring the time evolution of the terahertz conductivity, we observe the coexistence of itinerant carriers produced by exciton dissociation and a long-wavelength antiferromagnetic magnon that coherently precesses in time. These results demonstrate the emergence of a transient metallic state that preserves long-range antiferromagnetism, a phase that cannot be reached by simply tuning the temperature. More broadly, our findings open an avenue toward the exciton-mediated optical manipulation of magnetism.

Funder

DOE | Office of Science

Gordon and Betty Moore Foundation

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry

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