Thermal Load in Sliders for Hybrid Recording(Magneto-optical and Hybrid Recording)
スポンサーリンク
概要
- 論文の詳細を見る
We review the fundamental issue standing in the path of continued improvement in areal density in magnetic hard disk drives, namely, the superparagmagnetic effect. We also describe some of the optical components of a hybrid or heat assisted magnetic recording system, which is one possible solution to this technical challenge. We note the potential for heat assisted magnetic recording to achieve increased information storage densities at reasonable signal to noise ratios. Finally we identify an issue exacerbated by the introduction of thermal assistance of magnetic recording, namely that of the additional thermal load on the slider. We describe an experimental apparatus that we have employed to quantify the temperature rise in a slider when it is subjected to particular thermal loads at various locations on the slider body.
- 社団法人日本磁気学会の論文
- 2004-11-01
著者
-
Bain J
Data Storage Systems Center Carnegie Mellon University
-
Schlesinger T
Data Storage Systems Center Carnegie Mellon University
-
Schlesinger T.E.
Data Storage Systems Center, Carnegie Mellon University
-
Black E.J.
Data Storage Systems Center, Carnegie Mellon University
-
Stancil D.D.
Data Storage Systems Center, Carnegie Mellon University
-
Bain J.A.
Data Storage Systems Center, Carnegie Mellon University
-
Stancil D.
Data Storage Systems Center Carnegie Mellon University
-
Black E.j.
Data Storage Systems Center Carnegie Mellon University
-
Schlesinger T.e.
Data Storage System Center Carnegie Mellon University
関連論文
- Thermal Load in Sliders for Hybrid Recording(Magneto-optical and Hybrid Recording)
- Effects of Optical Spot/Magnetic Head Misalignment for Perpendicular Hybrid Magnetic Recording Systems (Invited Review Paper)
- An Integrated Read/Write Head for Hybrid Recording
- High Bandwidth Electro-optic Scanner for Optical Data Storage
- Recent Research Activity Towards Future Data Storage(Key Notes)
- Fabrication of Very Small Aperture Laser (VSAL) from a Commercial Edge Emitting Laser
- Refraction Theory for Planar Waveguides: Modeling of a Mode Index Integrated Solid Immersion Lens