パーマロイ・導体複合膜を用いた二層導体バブル転送路の検討
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概要
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This paper proposes two types of dual-conductor bubble circuits: single- and double-combinedsheet bubble circuits. A combined sheet consists of a perforated conductor sheet and a perforated permalloy keeper which have the same aperture patterns. The permalloy keeper is disposed on the upper surface of the conductor. The single-combined-sheet circuit consists of the perforated conductor sheet in level 1 and the combined sheet in level 2. The double-combined-sheet circuit consists of the combined sheets in both levels. The effect of the perforated permalloy keeper and magnetic interactions between the levels, such as a field distortion induced by the keeper in the adjacent level and magnetic shielding of the first-level keeper, are discussed by use of the results measured on scale-up models. The combined sheet produces a stronger drive field because the permalloy keeper enhances a field produced by the conductor. Therefore, the linear current density required for bubble propagation is reduced, which results in a lower power dissipation. The degree of the enhancement increases with the permalloy thickness. The thicker permalloy keeper produces the stronger magnetic interactions between the levels.
- 社団法人 日本磁気学会の論文
社団法人 日本磁気学会 | 論文
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