Title :
Relationship Between Head Design and Media Remanent Magnetization in Perpendicular Magnetic Recording
Author :
Takano, Kenichi ; Sakai, Masanori ; Smyth, Joe ; Dovek, Moris
Author_Institution :
Headway Technol., Milpitas, CA
Abstract :
This paper presents micromagnetic modeling results in a perpendicular magnetic recording, which consists of a single-pole head and double-layered media. To know the inplane head field contribution, the relationship between applied angular field and media remanence is studied, and we propose a perpendicular corresponding field for the head field assessment, which can explain media remanence as well such as the main-pole footprint on the media. The shielded-pole/single-coil head shows the best signal-to-noise ratio but the overwrite performance is somewhat poorer than monopole heads, with a large positive to negative head field, which implies a large field gradient. Although the shielded-pole head has smaller erase bands with straight transitions, it can cause trailing-shield-related erasure by the negative field under the high write current input in the single-coil design
Keywords :
gradient methods; magnetic heads; magnetisation; perpendicular magnetic recording; double-layered media; head design; head field assessment; inplane head field contribution; main-pole footprint; media remanence; media remanent magnetization; micromagnetic modeling; perpendicular magnetic recording; signal-to-noise ratio; single-coil head; single-pole head; trailing-shield-related erasure; Coils; Land mobile radio; Magnetic flux; Magnetic heads; Magnetic recording; Micromagnetics; Perpendicular magnetic recording; Remanence; Saturation magnetization; Signal to noise ratio; Magnetic recording head; micromagnetic modeling; parallel finite-element method; perpendicular magnetic recording;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.888197
