Element-Specific Study of Magnetic Anisotropy and Hardening in SmCoCu Thin Films.

This work investigates the effect of copper substitution on the magnetic properties of SmCo thin films synthesized by molecular beam epitaxy. A series of thin films with varying concentrations of Cu were grown under otherwise identical conditions to disentangle structural and compositional effects on the magnetic behavior. The combined experimental and theoretical studies show that Cu substitution at the Co sites not only stabilizes the formation of the SmCo structure but also enhances magnetic anisotropy and coercivity.

Epitaxy Induced Highly Ordered SmCo-SmCo Nanoscale Thin-Film Magnets.

Utilizing the molecular beam epitaxy technique, a nanoscale thin-film magnet of -axis-oriented SmCo and SmCo phases is stabilized. While typically in the prototype Sm(Co, Fe, Cu, Zr) pinning-type magnets, an ordered nanocomposite is formed by complex thermal treatments, here, a one-step approach to induce controlled phase separation in a binary Sm-Co system is shown. A detailed analysis of the extended X-ray absorption fine structure confirmed the coexistence of SmCo and SmCo phases with 65% SmCo and 35% SmCo.