Title :
Design of CF-SPT Head Having Large Recording Field and Small Stray Field Using 3-D ON/OFF Method
Author :
Akiyama, Koji ; Miyagi, Daisuke ; Takahashi, Norio
Author_Institution :
Dept. of Electr. & Electron. Eng., Okayama Univ.
Abstract :
The optimal design of a magnetic recording head is one important issue for high magnetic recording of 600-Gb/in2 and beyond. In this paper, a three-dimensional topology optimization method (ON/OFF method) combined with a finite-element method is applied for the optimization of a cusp field single-pole-type head. In the ON/OFF method, the unknown variable is the reluctivity of magnetic material in the design domain and there is no special constraint. Therefore, the possibility of finding more optimal topology is increased compared with the conventional optimization method in which the design variables are specified. The optimal shape and dimension of a head is determined so that the flux density in a recording bit becomes the maximum and the leakage flux in the adjacent bit and adjacent track becomes the minimum. The recording field of 1.75 T and the field gradient of 0.038 T/nm (380 Oe/nm) are obtained for the head-soft underlayer distance of 25 nm
Keywords :
finite element analysis; magnetic flux; magnetic heads; magnetic leakage; magnetic shielding; perpendicular magnetic recording; 1.75 T; 3D on-off method; 3D topology optimization method; finite-element method; flux density; head-soft underlayer; leakage flux; magnetic material reluctivity; magnetic recording head; recording field; stray field; Finite element methods; Magnetic analysis; Magnetic flux; Magnetic heads; Magnetic materials; Magnetic recording; Optimization methods; Perpendicular magnetic recording; Shape; Topology; Finite-element analysis; magnetic recording; optimization;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.878678
