Title :
Corrosion-Resistant GMR Head for Over 1-TB Tape System
Author :
Sekine, Masaaki ; Watanabe, Takashi ; Tamakawa, Yusuke ; Shibata, Takuji ; Soda, Yutaka
Author_Institution :
Recording Media & Device Bus. Group, Sony Corp., Miyagi
Abstract :
We have developed a corrosion-resistant giant magnetoresistance (GMR) head using a spin-valve (Ta/NiFe/CoNiFe/CuAu/CoNiFe/PtMn/Ta) film for an over 1-TB helical tape system. The magnetic properties of the corrosion-resistant GMR head were preserved during a Battelle Class II test for 20 days. The sense current shunting in the spacer layer of the spin-valve film (SV) was less for CuAu than for Cu due to the higher resistivity of CuAu. The interlayer-coupling field in the corrosion-resistant SV film was about 25% that in conventional SV films. Therefore, each layer of the corrosion-resistant SV film was designed so as to optimize the bias point. For stripe-heights in the range from 0.7 to 0.4 mum, the asymmetry of the head output was maintained at plusmn20%. The recording characteristics had a signal-to-noise ratio (SNR) of 19.5 dB with a 0.7 mum track width at a 254 kFCI linear density. Using this head, a tape system of over 1 TB per cassette is possible
Keywords :
cobalt alloys; copper alloys; giant magnetoresistance; magnetic heads; magnetic multilayers; magnetic thin films; platinum alloys; spin valves; tantalum alloys; Battelle Class II test; Ta-NiFe-CoNiFe-CuAu-CoNiFe-PtMn-Ta; corrosion-resistant GMR head; corrosion-resistant SV film; corrosion-resistant giant magnetoresistance head; helical tape system; interlayer-coupling field; magnetic properties; spin-valve film; Conductivity; Gases; Giant magnetoresistance; Magnetic field measurement; Magnetic films; Magnetic heads; Product development; Semiconductor films; Testing; Voltage; Corrosion-resistant spin-valve; GMR head; ME tape; helical-scan tape system;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.878814
