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KAKEN_23360160seika.pdf
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Download
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:348.3 KB
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:Dec 11, 2014 |
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| Title |
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大容量・省エネルギーな次々世代情報ストレージ開発に向けた三次元磁気記録の研究
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ダイヨウリョウ・ショウエネルギーナ ジジセダイ ジョウホウ ストレージ カイハツ ニ ムケタ サンジゲン ジキ キロク ノ ケンキュウ
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Daiyoryo shoenerugina jijisedai joho sutoreji kaihatsu ni muketa sanjigen jiki kiroku no kenkyu
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Research on 3 dimensional magnetic recording for high-capacity and low power consuming storage technologies
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能崎, 幸雄
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ノザキ, ユキオ
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Nozaki, Yukio
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慶應義塾大学・理工学部・准教授
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Research team head
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科研費研究者番号 : 30304760
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松山, 公秀
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マツヤマ, キミヒデ
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Matsuyama, Kimihide
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九州大学・大学院システム情報科学研究院・教授
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Research team member
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科研費研究者番号 : 80165919
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2014
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科学研究費補助金研究成果報告書
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2013
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| Abstract |
多層構造媒体を用いた3次元磁気記録について、マイクロマグネティクス計算の手法を用いて調べた。その結果、周波数を適切に選択した円偏向マイクロ波磁場を用いることにより、任意の層に選択的に磁気ビットを記録できることを確かめた。また、磁気特性や構造の最適化により、再生時のS/N確保に必要な磁化600 emu/cm3の磁性層を用いた3次元記録が可能になることを明らかにした。次に、500 Gbpsi級の垂直媒体を用いてマイクロ波アシスト記録実験を行った。幅50 nsのマイクロ波に対して、周波数に依存した保磁力の減少を観察し、15 GHz, 25 dBmの条件で媒体の保磁力を30%低減することに成功した。
A three-dimensional magnetic recording in a multi-layered stacked magnetic pillar was investigated using micromagnetic simulation. Selective magnetization switching is possible with the assistance of a circularly polarized microwave field with an adequate corresponding frequency. The value of the saturation magnetization of the magnetic layers is critical in suppressing selective magnetization switching errors caused by magnetostatic fields. A large saturation magnetization of up to 600 emu/cm3 in the second layer allows successful three-dimensional magnetic recording. Microwave-assisted recording on a 500-Gbpsi-class perpendicular medium was experimentally demonstrated at room temperature. A frequency-dependent reduction in the switching field was clearly observed in response to a microwave impulse 50 ns in duration. A significant reduction of up to 30% in the coercive field was achieved by applying a microwave impulse with an amplitude of 25 dBm and a frequency of 15 GHz.
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研究種目 : 基盤研究(B)
研究期間 : 2011~2013
課題番号 : 23360160
研究分野 : 工学
科研費の分科・細目 : 電気電子工学・電子デバイス・電子機器
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