Journal
JAPANESE JOURNAL OF APPLIED PHYSICS
Volume 62, Issue SB, Pages -Publisher
IOP Publishing Ltd
DOI: 10.35848/1347-4065/ac962c
Keywords
heat assisted magnetic recording; post-annealing under NH3 gas atmosphere; FePt-BN granular film; L1(0) type FePt; solid solution element
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In this study, post-annealing under NH3 gas atmosphere was conducted to promote the two-phase separation of FePt-BN granular films. The results showed that increasing post-annealing time led to an increase in saturation magnetization, a change in the orientation of FePt grains, and a decrease in unit cell volume of FePt grains in the granular film. The reduction in saturation magnetization for FePt-BN granular films was considered to be caused by the solid solution of B in the FePt grains.
In this study, post-annealing under NH3 gas atmosphere was conducted in order to promote the two-phase separation of FePt-BN granular films. Magnetic properties and structural analysis for the Fe50Pt50-30 vol% BN granular films revealed that (1) saturation magnetization (M (s)) of the granular film increased from 500 to 650 emu cm(-3) with increasing post-annealing time from 0 to 10 min, (2) the orientation of FePt grains changes from (002) to (111) and fully ordered with increasing post-annealing time up to 30 min, (3) the unit cell volume of FePt grains in the granular film decreased from 55.91 to 55.55 angstrom(3) with increasing post-annealing time from 0 to 10 min, which suggests dissolve and eject of solid solution element. From the above, M (s) reduction for the FePt-BN granular films is considered to be caused by the solid solution of B in the FePt grains.
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