# Relationship between charge redistribution and ferromagnetism at the   heterointerface between perovskite oxides LaNiO$_3$ and LaMnO$_3$

**Authors:** Miho Kitamura, Masaki Kobayashi, Enju Sakai, Makoto Minohara, Ryu, Yukawa, Daisuke Shiga, Kenta Amemiya, Yosuke Nonaka, Goro Shibata, Atsushi, Fujimori, Hiroshi Fujioka, Koji Horiba, and Hiroshi Kumigashira

arXiv: 1904.01335 · 2019-12-25

## TL;DR

This study explores how charge transfer at the LaNiO3/LaMnO3 heterointerface influences ferromagnetism, revealing a close link between charge redistribution and magnetic properties through spectroscopic analysis.

## Contribution

It provides detailed insights into the spatial distribution of charge transfer and induced magnetization at the heterointerface, highlighting the relationship between charge redistribution and ferromagnetism.

## Key findings

- Charge transfer is confined within one monolayer of LNO.
- Ni magnetization is induced only in Ni$^{2+}$ ions near the interface.
- The interfacial ferromagnetism correlates with charge distribution length scales.

## Abstract

To investigate the relationship between the charge redistribution and ferromagnetism at the heterointerface between perovskite transition-metal oxides LaNiO$_3$ (LNO) and LaMnO$_3$ (LMO), we performed x-ray absorption spectroscopy and x-ray magnetic circular dichroism (XMCD) measurements. In the LNO/LMO heterostructures with asymmetric charge redistribution, the electrons donated from Mn to Ni ions are confined within one monolayer (ML) of LNO at the interface, whereas holes are distributed over 3-4 ML on the LMO side. A detailed analysis of the Ni-$L_{2,3}$ and Mn-$L_{2,3}$ XMCD spectra reveals that Ni magnetization is induced only by the Ni$^{2+}$ ions in the 1 ML LNO adjacent to the interface, while the magnetization of Mn ions is increased in the 3-4 ML LMO of the interfacial region. The characteristic length scale of the emergent (increased) interfacial ferromagnetism of the LNO (LMO) layers is in good agreement with that of the charge distribution across the interface, indicating a close relationship between the charge redistribution due to the interfacial charge transfer and the ferromagnetism of the LNO/LMO interface. Furthermore, the XMCD spectra clearly demonstrate that the vectors of induced magnetization of both ions are aligned ferromagnetically, suggesting that the delicate balance between the exchange interactions occurring inside each layer and across the interface may induce the canted ferromagnetism of Ni$^{2+}$ ions, resulting in weak magnetization in the 1 ML LNO adjacent to the interface.

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Source: https://tomesphere.com/paper/1904.01335