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Electron-polaron dichotomy of charge carriers in perovskite oxides

M.-A. Husanu, L. Vistoli, C. Verdi, A. Sander, V. Garcia, J. Rault, F. Bisti, L. L. Lev, T. Schmitt, F. Giustino, A. S. Mishchenko, M. Bibes, V. N. Strocov

2020Communications Physics23 citationsDOIOpen Access PDF

Abstract

Abstract Many transition metal oxides (TMOs) are Mott insulators due to strong Coulomb repulsion between electrons, and exhibit metal-insulator transitions (MITs) whose mechanisms are not always fully understood. Unlike most TMOs, minute doping in CaMnO 3 induces a metallic state without any structural transformations. This material is thus an ideal platform to explore band formation through the MIT. Here, we use angle-resolved photoemission spectroscopy to visualize how electrons delocalize and couple to phonons in CaMnO 3 . We show the development of a Fermi surface where mobile electrons coexist with heavier carriers, strongly coupled polarons. The latter originate from a boost of the electron-phonon interaction (EPI). This finding brings to light the role that the EPI can play in MITs even caused by purely electronic mechanisms. Our discovery of the EPI-induced dichotomy of the charge carriers explains the transport response of Ce-doped CaMnO 3 and suggests strategies to engineer quantum matter from TMOs.

Topics & Concepts

Condensed matter physicsPerovskite (structure)Photoemission spectroscopyElectronCharge carrierDopingFermi levelMaterials scienceCoulombCharge (physics)Chemical physicsElectronic structurePhysicsPhononMetalHeterojunctionChemistryStrongly correlated materialIdeal (ethics)Mott insulatorQuantumTransition metalAngle-resolved photoemission spectroscopyInverse photoemission spectroscopyFermi surfaceMetal–insulator transitionSurface statesQuantum dotSpectroscopyMott transitionTopological insulatorElectron spectroscopyCharge orderingAtomic electron transitionElectronic band structureThermal conductionElectronic and Structural Properties of OxidesChemical and Physical Properties of MaterialsMagnetic and transport properties of perovskites and related materials
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