Geometric influence on the net magnetic moment in LaCoO$_3$ thin films

TL;DR

This study investigates how substrate-induced geometric constraints affect the magnetic properties of LaCoO$_3$ thin films, revealing substrate-dependent magnetic ordering and net magnetic moments.

Contribution

It demonstrates the influence of substrate geometry on magnetic behavior and long-range order in LaCoO$_3$ thin films, highlighting the role of Co-O-Co bond angles.

Findings

Long-range magnetic order occurs below ~90 K when Co-O-Co bond angle > 163°.

LaAlO$_3$ substrate suppresses magnetic order near the interface.

Films on SrTiO$_3$ exhibit non-collinear antiferromagnetic sublattices with net moments.

Abstract

The different magnetic behaviors of LaCoO$_3$ films grown on LaAlO$_3$ and SrTiO$_3$ are related to the Co-O-Co bond angles and the constraints imposed on the Co-O bond lengths by the substrate geometries. Long-range magnetic order occurs below T ~ 90 K when the Co-O-Co bond angle is greater than 163 degrees, consistent with the behavior of bulk and nanoparticles forms of LaCoO$_3$. A LaAlO$_3$ substrate prevents magnetic long-range order at low temperatures near the film-substrate interface and collinear antiferromagnetic sublattices away from the interface. At low temperatures, the antiferromagnetically ordered sublattices are non-collinear in films grown on SrTiO$_3$ substrates, leading to a significant net moment.