Adjacent and Far Track Erasure Dependence on Media Soft Underlayer Permeability in Shielded Head Recording

Choe Gunn; Goncharov Alexander; Chu Francis; Vanderheijden Paul

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Adjacent and Far Track Erasure Dependence on Media Soft Underlayer Permeability in Shielded Head Recording

机译：屏蔽头记录中对介质软底层渗透性的相邻和远距离擦除依赖

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摘要

The permeability of the magnetic soft underlayer (SUL) was systematically varied by changing the antiferromagnetic exchange coupling, and the effect on recording performance and adjacent track erasure (ATE) and far track erasure (FTE) was investigated. Perpendicular magnetic recording performance highly depends on SUL permeability. Highly permeable SUL can reduce the head erasure field located at far tracks from a stressing track but generates more erasure at adjacent tracks near the side shield. Optimum SUL permeability can improve on-track performance with tolerable ATE or FTE. Finite element method models of a shielded write head and media with different SUL permeabilities were performed. A high-permeability SUL has a larger impact on short-time high FTE fields and potentially affects the erasure at 3–6 tracks from main pole. This shows agreement with experimental results.

机译：通过改变反铁磁交换耦合，系统地改变了磁性软底层（SUL）的磁导率，并研究了其对记录性能以及相邻磁道擦除（ATE）和远磁道擦除（FTE）的影响。垂直磁记录性能很大程度上取决于SUL磁导率。高渗透性的SUL可以减少位于远离应力轨迹的磁道上的磁头擦除场，但会在靠近侧面护罩的相邻磁道处产生更大的擦除效果。最佳的SUL磁导率可以通过可容忍的ATE或FTE改善轨道性能。进行了屏蔽写头和具有不同SUL磁导率的介质的有限元方法模型。高磁导率的SUL对短时高FTE场影响更大，并可能影响从主磁极起3–6条磁道的擦除。这表明与实验结果一致。

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《Magnetics, IEEE Transactions on》 |2015年第11期|1-4|共4页
作者
Choe Gunn; Goncharov Alexander; Chu Francis; Vanderheijden Paul;
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作者单位

, HGST, a Western Digital Company, San Jose, CA, USA;

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原文格式 PDF
正文语种 eng
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关键词
Perpendicular recording; SUL permeability; Track erasure; shielded head;

机译：垂直记录;SUL渗透性;磁迹擦除;屏蔽头;

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1. A soft magnetic underlayer with negative uniaxial magnetocrystalline anisotropy for suppression of spike noise and wide adjacent track erasure in perpendicular recording media [J] . Atsushi Hashimoto, Shin Saito, Migaku Takahashi Journal of Applied Physics . 2006,第8Pt3期

机译：具有负单轴磁晶各向异性的软磁衬层，用于抑制尖峰噪声和垂直记录介质中较宽的相邻磁道擦除
2. Effect of Soft Underlayer Permeability on Wide Area Track Erasure in Perpendicular Recording [J] . Jianing Zhou, B. Ramamurthy Acharya, Paramjit Gill, IEEE Transactions on Magnetics . 2005,第10期

机译：垂直记录中软地下渗透率对广域径迹擦除的影响
3. Dynamic coercivity and adjacent track erasure in longitudinal magnetic recording media [J] . E. N. Abarra, P. Gill, B. R. Acharya, Journal of Applied Physics . 2005,第10Pt3期

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4. Adjacent and far track erasure dependence on media SUL permeability in shielded PMR head recording [C] . Choe, G., Goncharov, A., Chu, F., IEEE Magnetics Conference . 2015

机译：在屏蔽PMR磁头记录中，远近擦除取决于介质SUL渗透性
5. Soft Underlayers for Next Generation Magnetic Recording Media and Nano Electrostatic Discharge Protection [D] . Zhang, Chen 2013

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7. Influence on the Recording Performance due to exchange coupling field of Soft Underlayer in Perpendicular Recording Media [O] . K. Shintaku 2009

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8. Dependence of Permeability and Filtration on Pore Morphology in Consolidated Particulate Media: Final Report [R] . Smith, D. W. , Smugeresky, J. E. , Meyer, B. A. 1987

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Adjacent and Far Track Erasure Dependence on Media Soft Underlayer Permeability in Shielded Head Recording

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