Dzyaloshinskii interaction and exchange-relativistic effects in orthoferrites

TL;DR

This paper reviews the microscopic theory of Dzyaloshinskii-Moriya interactions and related effects in orthoferrites, deriving expressions for the Dzyaloshinskii vector, predicting weak ferrimagnetism, and discussing experimental tools like NMR.

Contribution

It provides a microscopic derivation of the Dzyaloshinskii vector's dependence on exchange geometry and crystal field, and predicts weak ferrimagnetism in certain weak ferromagnets.

Findings

Derived expressions for the Dzyaloshinskii vector based on exchange geometry

Predicted and analyzed weak ferrimagnetism in mixed weak ferromagnets

Proposed ligand NMR as a tool to study DM effects

Abstract

We present an overview of the microscopic theory of the Dzyaloshinskii-Moriya (DM) coupling and related exchange-relativistic effects such as exchange anisotropy, electron-nuclear antisymmetric supertransferred hyperfine interactions, antisymmetric magnetogyrotropic effects, and antisymmetric magnetoelectric coupling in strongly correlated 3$d$ compounds focusing on orthoferrites RFeO$_3$ (R is a rare-earth ion or yttrium Y). % Particular emphasis will be placed on the role of crystal field effects, the sense and direction of the Dzyaloshinskii vector, its dependence on the superexchange bonding geometry, and other subtle features of exchange-relativistic effects. Most attention in the paper centers around the derivation of the Dzyaloshinskii vector, its value, orientation, and sense (sign) under different types of the (super)exchange interaction and crystal field. Microscopically derived expression for the dependence of the Dzyaloshinskii vector on the superexchange geometry allows one to find all the overt and hidden canting angles in orthoferrites RFeO$_3$ as well as corresponding contribution to magnetic anisotropy. Being based on the theoretical predictions regarding the sign of the Dzyaloshinskii vector we have predicted and study in detail a novel magnetic phenomenon, {\it weak ferrimagnetism} in mixed weak ferromagnets with competing signs of the Dzyaloshinskii vectors. The ligand NMR measurements in weak ferromagnets are shown to be an effective tool to inspect the effects of DM coupling in an external magnetic field. Along with orthoferrites RFeO$_3$ and weak ferrimagnets RFe$_{1-x}$Cr$_x$O$_3$, although to a lesser extent, we address such typical weak ferromagnets as $\alpha$-Fe$_2$O$_3$, FeBO$_3$, and FeF$_3$.