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Structure, magnetic and thermal properties of FePt–C–BN granular films for heat assisted magnetic recording

Shaohai Chen, Xinyu Shu, Qidong Xie, Chenghang Zhou, Jing Zhou, Jinyu Deng, Rui Guo, Yingguo Peng, Ganping Ju, Jingsheng Chen

2020Journal of Physics D Applied Physics30 citationsDOIOpen Access PDF

Abstract

Abstract The structure, magnetic and thermal properties of (FePt 0.78 –C 0.22 )–BN granular films with various BN volume concentrations are systematically studied. Compared to the FePt–C film without BN doping, the grain size distribution of the FePt grains is reduced by 50% with BN component is 10 vol.%, and the coercivity and the intrinsic switching field distributions of the film are increased 3 times and narrowed by 35%, respectively, when BN component is 6 vol.%. The improvement in magnetic properties is attributed to the enhanced chemical ordering of the FePt L1 0 phase. Based on the 3 ω method, it is found that the relative cross-plane thermal conductivity of the FePt–C–BN layer is more correlated to the grain size distribution of the film, which decreases to the minimum value at 10 vol.% BN. Our results indicate that a certain amount of BN doping can improve the comprehensive performance of the FePt–C–BN granular films, making it a promising candidate for heat assisted magnetic recording.

Topics & Concepts

Materials scienceCoercivityGrain sizeDopingThermal conductivityCondensed matter physicsThermalMagnetic fieldHeat-assisted magnetic recordingPhase (matter)Composite materialThermodynamicsChemistryOptoelectronicsElectrical engineeringEngineeringQuantum mechanicsPhysicsTransducerOrganic chemistryMagnetic properties of thin filmsMetallic Glasses and Amorphous AlloysAdhesion, Friction, and Surface Interactions
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