From 3D static order to 2D dynamic correlations in the tetragonal double perovskite Sr2CuWO6

TL;DR

This study investigates the magnetic properties and correlations in Sr2CuWO6, revealing a transition from 3D static antiferromagnetism to 2D dynamic correlations above the Neel temperature, influenced by strong spin-orbit coupling.

Contribution

It provides detailed experimental insights into the magnetic transition and dynamic correlations in Sr2CuWO6, highlighting its quasi-2D behavior and the role of spin-orbit coupling.

Findings

Transition from 3D static to 2D dynamic correlations at 24 K

Detection of 2D correlations up to 100 K

Small magnetic domains of approximately 60 Å

Abstract

\SCWO is a tetragonal ($I4/m$) double perovskite with diamagnetic W$^{6+}$ (5d$^0$) and (Jahn-Teller-active) Cu$^{2+}$ (3$d^9$) in a rocksalt-ordered arrangement on the B sites, modelling an anisotropic fcc-lattice antiferromagnet with $S=1/2$. We have studied the magnetic structure, dynamics and thermodynamic properties of this material above and below the \Neel{}-ordering transition at $T_{\textrm{N}} = 24$~K. Muon spin relaxation spectroscopy, neutron diffraction and neutron spectroscopy experiments show that the transition at $T_{\textrm{N}}$ on heating is from static 3D type-2 antiferromagnetism to 2D dynamic correlations that remain detectable up to 100~K. Above $T_{\textrm{N}}$ the muon relaxation is described by a compressed exponential decay, revealing a strong correlation between the spin fluctuation rate and the 2D correlation length. The low-temperature muon data and the entropy release around $T_{\textrm{N}}$ as obtained from the heat capacity data point to small magnetic domains, probably of the order of 60~\AA{}. We note that the material behaves more like a quasi-2D square lattice antiferromagnet than could be expected considering its structure only. A possible explanation might lie in the unusual strong spin-orbit-coupled magnetism of the W 5$d$ levels, as the dominant exchange interaction is via the Cu-O-W-O-Cu pathway.