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Effect of melting point of grain boundary material on nanostructure and magnetic properties of L1 <sub>0</sub> type FePt granular media

Takashi Saito, Kim Kong Tham, Ryosuke Kushibiki, Tomoyuki Ogawa, Shin Saito

2020Japanese Journal of Applied Physics22 citationsDOI

Abstract

Abstract The effect of melting point ( T m ) of various grain boundary materials (GBMs) on the magnetic properties and nanostructure of FePt granular films was investigated. According to the analysis for the granular films with a constant GBM volume of 30 vol% deposited at a high substrate temperature, the saturation magnetization, M s , had a strong correlation with T m . We newly proposed a degree of order evaluation from in-plane X-ray diffraction from the L1 0 FePt (110) and (220) planes. As the results, neither the degree of order nor the grain diameter had any significant correlation with the T m of GBM. Based on these analyzes, it was found that an increase of the grain diameter increases the degree of order, which results in enhancement of the coercivity of the FePt granular films. And it was clarified that M s strongly depends on the degree of phase separation related to the melting point of GBM.

Topics & Concepts

Materials scienceNanostructureCoercivityMelting pointGrain boundaryGrain sizeCondensed matter physicsDegree (music)Phase boundarySaturation (graph theory)Phase (matter)NanotechnologyComposite materialMicrostructureChemistryPhysicsMathematicsAcousticsOrganic chemistryCombinatoricsMagnetic properties of thin filmsMagnetic Properties and ApplicationsMetallic Glasses and Amorphous Alloys
Effect of melting point of grain boundary material on nanostructure and magnetic properties of L1 <sub>0</sub> type FePt granular media | Litcius