Spin-valve and tunnel-valve structures with in situ in-stack bias

Spin-valve and tunnel-valve structures with in situ in-stack bias

The use of in-stack longitudinal magnetic stabilization for spin-valve and tunnel-valve recording head sensors has been investigated. An in-stack ferromagnetic layer pinned with an IrMn antiferromagnet is used to magnetostatically stabilize the free layer by flux closure. The use of IrMn with lower...

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Veröffentlicht in:IEEE transactions on magnetics 2002-09, Vol.38 (5), p.2286-2288
Hauptverfasser: Childress, J.R., Ho, M.K., Fontana, R.E., Carey, M.J., Rice, P.M., Gurney, B.A., Tsang, C.H.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Electronics
Exact sciences and technology
Insulation life
Magnetic devices
Magnetic flux
Magnetic heads
Magnetic recording
Magnetic sensors
Magnetic separation
Magnetic thin film devices: magnetic heads (magnetoresistive, inductive, etc.)
domain-motion devices, etc
Magnetism
Magnetosphere
Magnetostatics
Perpendicular magnetic recording
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
Stability
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Zusammenfassung:The use of in-stack longitudinal magnetic stabilization for spin-valve and tunnel-valve recording head sensors has been investigated. An in-stack ferromagnetic layer pinned with an IrMn antiferromagnet is used to magnetostatically stabilize the free layer by flux closure. The use of IrMn with lower blocking temperature than PtMn allows the bias layer to be set independently from the PtMn-pinned reference layer in the spin-valve or tunnel-valve. A Ta spacer 10-30 /spl Aring/ in thickness is used to separate the free layer from the bias layer resulting in low coupling fields. IrMn delivers up to 0.34 erg/cm/sup 2/ of pinning strength, resulting in stable unshielded sensor operation for device sizes below 0.2 /spl mu/m.
ISSN:0018-9464
1941-0069
DOI:10.1109/TMAG.2002.802802