# Strong magnetoelectric coupling in mixed ferrimagnetic-multiferroic   phases of a double perovskite

**Authors:** M. K. Kim, J. Y. Moon, S. H. Oh, D. G. Oh, Y. J. Choi, and N. Lee

arXiv: 1905.00595 · 2019-05-03

## TL;DR

This study reveals strong magnetoelectric coupling in Er2CoMnO6, a double perovskite, where coexisting ferrimagnetic and multiferroic phases exhibit correlated magnetic and electric transitions, advancing understanding of multifunctional magnetic materials.

## Contribution

It demonstrates the coexistence and strong coupling of ferrimagnetic and multiferroic phases in Er2CoMnO6, a novel finding in double perovskite materials.

## Key findings

- Ferrimagnetic order activated below 10 K
- Multiferroic phase with ferroelectric polarization at 2 K
- Simultaneous magnetic and ferroelectric transitions

## Abstract

Exploring new magnetic materials is essential for finding advantageous functional properties such as magnetoresistance, magnetocaloric effect, spintronic functionality, and multiferroicity. Versatile classes of double perovskite compounds have been recently investigated because of intriguing physical properties arising from the proper combination of several magnetic ions. In this study, it is observed that the dominant ferrimagnetic phase is coexisted with a minor multiferroic phase in single-crystalline double-perovskite Er2CoMnO6. The majority portion of the ferrimagnetic order is activated by the long-range order of Er3+ moments below TEr = 10 K in addition to the ferromagnetic order of Co2+ and Mn4+ moments arising at TC = 67 K, characterized by compensated magnetization at TComp = 3.15 K. The inverted magnetic hysteresis loop observed below TComp can be described by an extended Stoner-Wohlfarth model. The additional multiferroic phase is identified by the ferroelectric polarization of 0.9 uC/m2 at 2 K. The coexisting ferrimagnetic and multiferroic phases appear to be strongly correlated in that metamagnetic and ferroelectric transitions occur simultaneously. The results based on intricate magnetic correlations and phases in Er2CoMnO6 enrich fundamental and applied research on magnetic materials through the scope of distinct magnetic characteristics in double perovskites.

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Source: https://tomesphere.com/paper/1905.00595