Title :
Specular reflection in spin valves bounded by NiO layers
Author :
Swagten, H.J.M. ; Strijkers, G.J. ; Bitter, R.H.J.N. ; de Jonge, W.J.M. ; Kools, J.C.S.
Author_Institution :
Dept. of Phys., Eindhoven Univ. of Technol., Netherlands
fDate :
7/1/1998 12:00:00 AM
Abstract :
We have experimentally investigated the possibility of increased electron reflectivity induced by an insulating NiO layer that is used to exchange bias a metallic spin-valve. For this purpose Ni80Fe 20/Cu/Ni80Fe20 and Ni66Fe 16Co18/Cu/Co90Fe10 spin-valves were grown and subsequently covered by insulating NiO or by metallic FeMn. In all cases the giant magnetoresistance of the NiO spin-valves is systematically larger upon a variation of the exchange-biased ferromagnetic layer thickness, also after correcting the data for the conductivity of FeMn which we have determined from a separately grown series of samples with variable FeMn thickness. The increased giant magnetoresistance ratios can be qualitatively understood on the basis of a semiclassical calculation in which (partial) specular reflectivity at the NiO interface has been included
Keywords :
Permalloy; cobalt alloys; copper; ferromagnetic materials; giant magnetoresistance; iron alloys; magnetic multilayers; nickel compounds; NiO-Ni66Fe16Co18-Cu-Co90 Fe10; NiO-Ni80Fe20-Cu-Ni80Fe20 ; electron reflectivity; exchange bias; exchange-biased ferromagnetic layer thickness; giant magnetoresistance; insulating NiO layer; metallic spin-valve; semiclassical calculation; Electrons; Giant magnetoresistance; Insulation; Magnetic analysis; Magnetic separation; Reflection; Reflectivity; Scattering; Spin valves; Temperature;
Journal_Title :
Magnetics, IEEE Transactions on
