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A continuous metal-insulator transition driven by spin correlations

Yejun Feng, Yishu Wang, D. M. Silevitch, S. E. Cooper, David Mandrus, Patrick A. Lee, T. F. Rosenbaum

2021Nature Communications18 citationsDOIOpen Access PDF

Abstract

Abstract While Mott insulators induced by Coulomb interactions are a well-recognized class of metal-insulator transitions, insulators purely driven by spin correlations are much less common, as the reduced energy scale often invites competition from other degrees of freedom. Here, we demonstrate a clean example of a spin-correlation-driven metal-insulator transition in the all-in-all-out pyrochlore antiferromagnet Cd 2 Os 2 O 7 , where the lattice symmetry is preserved by the antiferromagnetism. After the antisymmetric linear magnetoresistance from conductive, ferromagnetic domain walls is removed experimentally, the bulk Hall coefficient reveals four Fermi surfaces of both electron and hole types, sequentially departing the Fermi level with decreasing temperature below the Néel temperature, T N = 227 K. In Cd 2 Os 2 O 7 , the charge gap of a continuous metal-insulator transition opens only at T ~ 10 K << T N . The insulating mechanism parallels the Slater picture, but without a folded Brillouin zone, and contrasts sharply with Mott insulators and spin density waves, where the electronic gap opens above and at T N , respectively.

Topics & Concepts

Condensed matter physicsAntiferromagnetismMetal–insulator transitionMott insulatorBrillouin zonePhysicsFermi levelSpin polarizationMaterials scienceElectronElectrical resistivity and conductivityQuantum mechanicsAdvanced Condensed Matter PhysicsPhysics of Superconductivity and MagnetismElectronic and Structural Properties of Oxides
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