Title :
Modeling of narrow track thin film write head fields
Author :
Kryder, M.H. ; Lai, Wag-Yew
Author_Institution :
Data Storage Syst. Center, Carnegie Mellon Univ., Pittsburgh, PA, USA
fDate :
11/1/1994 12:00:00 AM
Abstract :
A thin film inductive write head suitable for 10 Gbit/in2 recording density is simulated using boundary element modeling. The material was assumed to have the non-linear B-H properties of FeAlN-SiO2 multilayers-an initial permeability of 3400 and saturation flux density of 1.9 Tesla. The simulations show that with a trackpitch of 1 μm and a gap of 0.18 μm, it is necessary to use trimmed poles and a trackwidth of 0.6 μm to achieve a written trackwidth of 0.8 μm and allow for an erased-band of 0.05 μm at each track edge. This allows 0.1 μm for track misregistration, which is within tolerance achieved by current optical servos. If focused ion beam etching is used to trim the poles from the air bearing surface (ABS), to prevent fields from the etched shoulders from disturbing data in adjacent tracks, the shoulders should be etched 0.5 to 1.0 μm from the ABS
Keywords :
boundary-elements methods; magnetic fields; magnetic heads; magnetic thin film devices; modelling; 0.1 to 1 micron; 1.9 tesla; FeAlN-SiO2; FeAlN-SiO2 multilayers; air bearing surface; boundary element modeling; focused ion beam etching; inductive write head; magnetic head geometry; narrow track heads; nonlinear B-H properties; thin film write head fields; trimmed poles; Etching; Ion beams; Magnetic heads; Nonlinear optics; Optical films; Optical saturation; Particle beam optics; Permeability; Servomechanisms; Transistors;
Journal_Title :
Magnetics, IEEE Transactions on
