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Magnetization Reversal of Nd‐Fe‐B Thin Film under a Nanosecond Pulse Magnetic Field
Author(s) -
KADONOSAWA KAZUYA,
KIKUCHI NOBUAKI,
GOTO RYOTA,
OKAMOTO SATOSHI,
KITAKAMI OSAMU
Publication year - 2018
Publication title -
electrical engineering in japan
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.136
H-Index - 28
eISSN - 1520-6416
pISSN - 0424-7760
DOI - 10.1002/eej.23057
Subject(s) - magnetization , nanosecond , materials science , nanodot , condensed matter physics , pulse (music) , remanence , field (mathematics) , magnetic field , nucleation , nuclear magnetic resonance , optics , nanotechnology , physics , laser , quantum mechanics , detector , mathematics , pure mathematics , thermodynamics
SUMMARY The magnetization reversal process of Nd‐Fe‐B magnets has been long discussed. Since the elemental steps of the magnetization reversal process such as a nucleation of reversed embryo and a wall depinning are the events as small as nanometer scale and as fast as nano/sub‐nanosecond time scale, the study on the magnetization reversal with these space and time regions is essentially important. In this work, a generation of large amplitude nanosecond pulse field and a fabrication of Nd‐Fe‐B nanodot were examined, and then the magnetization reversal process of the Nd‐Fe‐B nanodot under the nanosecond pulse field was investigated. Combination of a Blumlein transmission line and a micro‐coil enables to generate a pulse field of 0.87 T in amplitude and 6 ns in width. It was clearly demonstrated that the reversed domain evolution in the dot under the pulse field was quite different from that under the static field, probably owing to the dispersion of energy barrier of each elemental magnetization reversal step.