Microstructure, magnetic and magneto-optical properties of Fe-doped SmCo<sub>5</sub> thin films

Wang, W W; Fang, Qing; Yang, Jin Jin; Dong, Dashun; Li, J G

doi:10.1088/1742-6596/827/1/012019

Cited by 1 publication

(1 citation statement)

References 17 publications

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“…high K u ). In case of nanocomposites, this phase can be produced by thin film deposition technique [28] or even by new multi-step chemical method, which allows to produce SmCo 5 anisotropic particles [29].…”

Section: Model Descriptionmentioning

confidence: 99%

Micromagnetic modelling of nanorods array-based L1₀-FeNi/SmCo₅ exchange-coupled composites

Kurichenko

Karpenkov

Gostischev

2020

J. Phys.: Condens. Matter

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Exchange-coupled nanocomposites are considered as the most promising materials for production of high-energy performance permanent magnets, which can exceed neodymium ones in terms of energy product. In this work, micromagnetic simulations of L1 0-FeNi/SmCo 5 composites based on the initially anisotropic structure of nanorods array were performed. Texturing effect on magnetic properties was investigated. It was revealed that even 30 % of anisotropy axes misalignment of grains in L1 0-FeNi phase would lead to only  10 % drop of coercivity. To maximize magnetic properties of the composites, parameters of microstructure were optimized for 120 × 120 array of interacting nanorods and were found to be 40 nm nanorod diameter and 12-20 nm interrod distance. The estimated diameter of nanorods and the packing density of the array provide energy product values of 149 kJ m-3. Influence of interrod distance on energy product values was explored. Approaches for production of exchangecoupled composites based on anisotropic nanostructures were proposed.

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Section: Model Descriptionmentioning

confidence: 99%

Micromagnetic modelling of nanorods array-based L1₀-FeNi/SmCo₅ exchange-coupled composites

Kurichenko

Karpenkov

Gostischev

2020

J. Phys.: Condens. Matter

View full text Add to dashboard Cite

show abstract

Microstructure, magnetic and magneto-optical properties of Fe-doped SmCo₅ thin films

Cited by 1 publication

References 17 publications

Micromagnetic modelling of nanorods array-based L1₀-FeNi/SmCo₅ exchange-coupled composites

Micromagnetic modelling of nanorods array-based L1₀-FeNi/SmCo₅ exchange-coupled composites

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Microstructure, magnetic and magneto-optical properties of Fe-doped SmCo5 thin films

Cited by 1 publication

References 17 publications

Micromagnetic modelling of nanorods array-based L10-FeNi/SmCo5 exchange-coupled composites

Micromagnetic modelling of nanorods array-based L10-FeNi/SmCo5 exchange-coupled composites

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Microstructure, magnetic and magneto-optical properties of Fe-doped SmCo₅ thin films

Micromagnetic modelling of nanorods array-based L1₀-FeNi/SmCo₅ exchange-coupled composites

Micromagnetic modelling of nanorods array-based L1₀-FeNi/SmCo₅ exchange-coupled composites