Pyroxenes: A new class of multiferroics

TL;DR

This paper introduces pyroxenes as a new class of multiferroic materials, demonstrating magnetically induced ferroelectricity in specific compounds and exploring their magnetic and electric properties.

Contribution

It identifies pyroxenes as a novel multiferroic family and investigates their magnetic and electric behaviors, including phase diagrams and potential mechanisms.

Findings

NaFeSi₂O₆ becomes ferroelectric below 6 K

LiFeSi₂O₆ and LiCrSi₂O₆ exhibit magnetically driven ferroelectricity

Electric polarization can be strongly modified by magnetic fields

Abstract

Pyroxenes with the general formula $AM$Si$_2$O$_6$ ($A$ = mono- or divalent metal, $M$ = di- or trivalent metal) are shown to be a new class of multiferroic materials. In particular, we have found so far that NaFeSi$_2$O$_6$ becomes ferroelectric in a magnetically ordered state below $\simeq 6$ K. Similarly, magnetically driven ferroelectricity is also detected in the Li homologues, LiFeSi$_2$O$_6$ ($T_C \simeq 18$ K) and LiCrSi$_2$O$_6$ ($T_C \simeq 11$ K). In all these monoclinic systems the electric polarization can be strongly modified by magnetic fields. Measurements of magnetic susceptibility, pyroelectric current and dielectric constants (and their dependence on magnetic field) are performed using a natural crystal of aegirine (NaFeSi$_2$O$_6$) and synthetic crystals of LiFeSi$_2$O$_6$ and LiCrSi$_2$O$_6$ grown from melt solution. For NaFeSi$_2$O$_6$ a temperature versus magnetic field phase diagram for NaFeSi$_2$O$_6$ is proposed. Exchange constants are computed on the basis of {\it ab initio} band structure calculations. The possibility of a spiral magnetic structure caused by frustration as origin of the multiferroic behaviour is discussed. We propose that other pyroxenes may also be multiferroic, and that the versatility of this family offers an exceptional opportunity to study general conditions for and mechanisms of magnetically driven ferroelectricity.