Impact of the Fe Doping on Magnetism in Perovskite Cobaltites

TL;DR

This study investigates how Fe doping affects the magnetic properties of perovskite cobaltites, revealing enhancement or suppression of ferromagnetism depending on the system, and highlighting the role of ionic radius in magnetic interactions.

Contribution

It provides a systematic analysis of Fe doping effects on magnetism in different cobaltite systems, identifying the mechanisms and key factors influencing magnetic behavior.

Findings

Fe doping enhances ferromagnetism in Pr-based cobaltites at low levels

High Fe doping induces spin-glass behavior in Pr-based systems

Fe doping suppresses ferromagnetism in Gd-based cobaltites

Abstract

We systematically studied the magnetic and transport properties for the polycrystalline samples of Fe-doped perovskite cobaltites: Pr$_{1-y}$Ca$_{y}$Co$_{1-x}$Fe$_x$O$_3$ ($y$=0.3, $x$=0-0.15; $y$=0.45, $x$=0-0.3) and Gd$_{0.55}$Sr$_{0.45}$Co$_{1-x}$Fe$_x$O$_{3}$ ($x$=0-0.3). Fe doping leads to an enhancement of the ferromagnetism in the systems of Pr$_{1-y}$Ca$_{y}$Co$_{1-x}$Fe$_x$O$_3$, while the ferromagnetism is suppressed with further increasing Fe content and spin-glass behavior is observed at high doping level of Fe. In contrast, the ferromagnetism is suppressed in the system Gd$_{0.55}$Sr$_{0.45}$Co$_{1-x}$Fe$_x$O$_{3}$ as long as Fe is doped, and no spin-glass behavior is observed in the sample with Fe doping up to 0.3. The competition between ferromagnetic interactions through Fe$^{3+}$-O-(LS)Co$^{4+}$ and antiferromagnetic interactions through Fe$^{3+}$-O-Fe$^{3+}$ and Fe$^{3+}$-O-(IS)Co$^{3+}$ is considered to be responsible for the behavior observed above. The average radius of the ions on A sites plays the key role in determining what type of interactions Fe doping mainly introduces.