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Study of magnetization reversal and magnetic hardening in SmCo5 single crystal magnets

Hongguo Zhang, Alex Aubert, Fernando Maccari, Christian Dietz, Ming Yue, Oliver Gutfleisch, Konstantin Skokov

2024Journal of Alloys and Compounds6 citationsDOIOpen Access PDF

Abstract

Large SmCo 5 single-crystal spheres are used as simple model objects for both theoretical and practical studies of the coercivity mechanism in permanent magnets (PM). These samples exhibit coercivity values exceeding 1 T, achieved through the enhancement of surface smoothness. The morphology and magnetic results indicate that surface defects play a key role in the reversal mechanism and nucleation process. The reversal mechanism and coercivity are studied by means of different magnetization protocols, shedding light on the influence of two types of nucleus of reversal magnetic domains. We then utilize these objects to probe the angular dependence of coercivity. Our examination of samples with differing surface states reveals that enhanced surface smoothness corresponds to a behavior closer to the coherent rotation model. This study underscores the massive influence of surface defects on magnetization reversal. Thus, the reduction of imperfections in PM grain boundaries holds the potential to significantly increase the nucleation field and thus the coercivity. More generally, our study introduces a methodology for examining the magnetization reversal of permanent magnets using simple model objects. • Coercivity surpassing 1 T in large SmCo5 magnets through electrochemical polishing. • Dominating nucleus type and their influence on magnetization reversal is revealed. • Effect of magnetization protocol on reversal magnetization. • Investigation of angular dependence of coercivity model using ideal objects.

Topics & Concepts

CoercivityCondensed matter physicsNucleationMaterials scienceMagnetizationMagnetMagnetic fieldPhysicsThermodynamicsQuantum mechanicsMagnetic Properties of AlloysMagnetic and transport properties of perovskites and related materialsMagnetic properties of thin films
Study of magnetization reversal and magnetic hardening in SmCo5 single crystal magnets | Litcius