Title :
Effects of impurity atoms on sputtered GMR multilayers
Author :
Marrows, C.H. ; Hickey, B.J. ; Malinowska, M. ; Meny, C.
Author_Institution :
Dept. of Phys. & Astron., Leeds Univ., UK
fDate :
9/1/1997 12:00:00 AM
Abstract :
We have investigated the effects of residual gas impurity atoms on interlayer exchange coupling and giant magnetoresistance (GMR) in Co(9Å)/Cu(9Å) multilayers. Structural analysis was performed by Co59 NMR. We deposited sub-monolayer quantities of residual gases at different points in the Co/Cu bilayer; the interfaces, or the middle of the Cu spacers or Co magnetic layers. Impurities at the interface lower the GMR and increase remanent fraction and saturation field. We are able to model these results phenomenologically by adding biquadratic coupling. Impurities in the bulk of the Cu layers lower GMR still further, and such samples are well described by models containing almost 100% biquadratic coupling. We have demonstrated that the transport parameters in our samples are largely unaffected by small quantities of impurities, but that the interlayer coupling is extremely sensitive to them, particularly in the bulk of the Cu spacer layers
Keywords :
Kerr magneto-optical effect; cobalt; copper; exchange interactions (electron); giant magnetoresistance; impurities; magnetic impurities; magnetic multilayers; metallic superlattices; nuclear magnetic resonance; sputtered coatings; 9 angstrom; Co magnetic layers; Co-Cu; Co/Cu bilayer; Co/Cu multilayers; Co59 NMR; Cu spacers; MOKE; biquadratic coupling; giant magnetoresistance; interlayer exchange coupling; residual gas impurity atoms; saturation field; sputtered GMR multilayers; structural analysis; transport parameters; Atomic layer deposition; Couplings; Gases; Giant magnetoresistance; Impurities; Magnetic analysis; Magnetic multilayers; Nonhomogeneous media; Nuclear magnetic resonance; Performance analysis;
Journal_Title :
Magnetics, IEEE Transactions on
