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Symmetry protected 1D chains in mixed-valence iron oxides

Authors :
Vasiukov, Denis M.
Khanal, Ghanashyam
Kupenko, Ilya
Aprilis, Georgios
Ovsyannikov, Sergey V.
Chariton, Stella
Cerantola, Valerio
Potapkin, Vasily
Chumakov, Aleksandr I.
Dubrovinsky, Leonid
Haule, Kristjan
Blackburn, Elizabeth
Publication Year :
2022

Abstract

During the last decade of high-pressure research a whole new series of iron oxides was discovered, like Fe$_4$O$_5$, Fe$_5$O$_6$, Fe$_7$O$_9$ etc., featuring closely related structures with arrays of one-dimensional (1D) chains of trigonal prisms embedded between slabs of octahedra. Here, we develop a unified approach to the series based on a specific crystallographic generation mechanism which predicts the structures of these oxides and naturally classifies them in terms of the slab cycle. When including magnetic interactions, we show that the 1D chains have a symmetry protection against magnetic perturbations from the iron ions in the slabs, and that the slab size determines the type of magnetic order, which is either ferromagnetic or antiferromagnetic. Dynamical mean-field theory calculations reveal the orbitally selective Mott state of the Fe ions and tendency of conductivity to low-dimensional behavior with particular enhancement along the 1D chains. Across the series, the decoupling of the chains increases, and so with the inherent charge ordering of the slabs, these structures have the potential to allow experimental realization of the model system of coupled 1D wires. We point out the possibility to stabilize these compounds in the thin-film form that, together with a wide range of possible ionic substitutions and fact that these compounds are recoverable at ambient pressure, makes them a very promising platform to engineer physical systems with interesting magnetotransport phenomena, as corroborated by the recent discovery of quantum Hall effect in ZrTe$_5$.

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2207.14111
Document Type :
Working Paper