Title :
Readout performance of confined-current-path current-perpendicular-to-plane heads
Author :
Tanaka, Atsushi ; Seyama, Yoshihiko ; Jogo, Arata ; Oshima, Hirotaka ; Kondo, Reiko ; Kishi, Hitoshi ; Kamata, Chikayoshi ; Shimizu, Yutaka ; Eguchi, Shin ; Satoh, Kazuaki
Author_Institution :
Fujitsu Labs. Ltd., Kanagawa, Japan
Abstract :
Current-perpendicular-to-plane (CPP) spin valve (SV) films with nano-oxide layers have been developed. The enhancement of giant magnetoresistance by inserting the current confining layer between free and pinned layers was confirmed by the calculation of the current-flow distribution using a finite-element model. For the bottom-type spin valve films with the structure of PdPtMn/CoFeB/Ru/CoFeB/Cu/oxidized CoFeB(t nm)/Cu/CoFeB, MR ratio of 5.0% and RA of 0.6 Ω·μm2 were obtained at t=1.2 nm. The merged head using the CPP-SV film with a nano-oxide layer whose MR ratio was 3.2% was fabricated. The magnetic read core width was 130 nm when the physical free-layer width was 100 nm. 0.91 mVp-p output voltage was obtained at the sense current of 4.8 mA which corresponds to the average current density of 19 MA/cm2.
Keywords :
finite element analysis; giant magnetoresistance; magnetic heads; magnetic multilayers; perpendicular magnetic recording; spin valves; bottom-type spin valve films; confined-current-path; current confining layer; current density; current-flow distribution; current-perpendicular-to-plane heads; finite-element model; giant magnetoresistance; magnetic read core; nano-oxide layers; output voltage; readout performance; sense current; Antiferromagnetic materials; Current density; Giant magnetoresistance; Magnetic films; Magnetic heads; Magnetic sensors; Noise level; Spin valves; Tunneling magnetoresistance; Voltage;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.821199
