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Towards Kitaev spin liquid in 3d transition metal compounds

Huimei Liu

2021International Journal of Modern Physics B40 citationsDOIOpen Access PDF

Abstract

This paper reviews the current progress on searching the Kitaev spin liquid state in 3[Formula: see text] electron systems. Honeycomb cobaltates were recently proposed as promising candidates to realize the Kitaev spin liquid state, due to the more localized wavefunctions of [Formula: see text] ions compared with that of [Formula: see text] and [Formula: see text] ions, and also the easy tunability of the exchange Hamiltonian in favor of Kitaev interaction. Several key parameters that have large impacts on the exchange constants, such as the charge-transfer gap and the trigonal crystal field, are identified and discussed. Specifically, tuning crystal field effect by means of strain or pressure is emphasized as an efficient phase control method driving the magnetically ordered cobaltates into the spin liquid state. Experimental results suggesting the existence of strong Kitaev interactions in layered honeycomb cobaltates are discussed. Finally, the future research directions are briefly outlined.

Topics & Concepts

Condensed matter physicsHamiltonian (control theory)HoneycombMaterials scienceQuantum spin liquidLiquid crystalPhase transitionSpin (aerodynamics)Ground stateTrigonal crystal systemSymmetry (geometry)MetalPhysicsElectronMagnetic fieldField (mathematics)Transition metalCrystal (programming language)IonSpin statesWave functionPhase (matter)Strongly correlated materialHoneycomb structureCrystal structureAdvanced Condensed Matter PhysicsPhysics of Superconductivity and MagnetismTopological Materials and Phenomena
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