Complex magnetic behavior of the sawtooth Fe chains in Rb 2 Fe 2 O(AsO 4) 2

V. Ovidiu Garlea, Liurukara D. Sanjeewa, Michael A. McGuire, Pramod Kumar, Dino Sulejmanovic, Jian He, Shiou Jyh Hwu

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20 Scopus citations

Abstract

Results of magnetic field and temperature-dependent neutron-diffraction and magnetization measurements on oxy-arsenate Rb2Fe 2O(AsO4)2 are reported. The crystal structure of this compound contains pseudo-one-dimensional [Fe2O6]∞ sawtoothlike chains, formed by corner-sharing isosceles triangles of Fe3+ ions occupying two nonequivalent crystallographic sites. The chains extend infinitely along the crystallographic b axis and are structurally confined from one another via diamagnetic (AsO4)3- units along the a axis and Rb+ cations along the c-axis direction. Neutron-diffraction measurements indicate the onset of a long-range antiferromagnetic order below approximately 25 K. The magnetic structure consists of ferrimagnetic chains which are antiferromagnetically coupled with each other. Within each chain, one of the two Fe sites carries a moment which lies along the b axis, while the second site bears a canted moment in the opposite direction. Externally applied magnetic field induces a transition to a ferrimagnetic state, in which the coupling between the sawtooth chains becomes ferromagnetic. Magnetization measurements performed on optically aligned single crystals reveal evidence for an uncompensated magnetization at low magnetic fields that could emerge from a phase-segregated state with ferrimagnetic inclusions or from antiferromagnetic domain walls. The observed magnetic states and the competition between them are expected to arise from strongly frustrated interactions within the sawtooth chains and relatively weak coupling between them.

Original languageEnglish
Article number014426
JournalPhysical Review B - Condensed Matter and Materials Physics
Volume89
Issue number1
DOIs
StatePublished - 29 Jan 2014
Externally publishedYes

Funding

FundersFunder number
National Science FoundationCHE-9808044, CHE-9808165, DMR-0706426
Directorate for Mathematical and Physical Sciences0706426, 9808044, 9808165

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