Title :
Size and self-field effects in giant magnetoresistive thin-film devices
Author :
Cross, R. William ; Russek, S.E. ; Sanders, S.C. ; Parker, M.R. ; Barnard, J.A. ; Hossain, S.A.
Author_Institution :
Div. of Electromagn. Technol., Nat. Inst. of Stand. & Technol., Boulder, CO, USA
fDate :
11/1/1994 12:00:00 AM
Abstract :
Giant magnetoresistance (GMR) was measured as a function of device size for patterned NiCoFe/Cu and NiFe/Ag films. For the quasi-granular NiCoFe/Cu films, the normalized maximum change in resistivity Δρ/ρ was 8% for most of the samples. For the NiFe/Ag films, antiparallel alignment was achieved through magnetostatic coupling, not exchange fields, with a Δρ/ρ of 4.5%. The films were patterned into stripes with Au current leads for size-effect measurements. The height of the stripes varied from 0.5 to 16 μm and the track width varied from 1 to 16 μm. Discrete switching events and anomalous low-field dips in the response were observed for both materials for small device sizes. Self-field and heating effects due to the applied current were investigated for the NiFeCo/Cu films. The effect of the self-field produced by the applied current was separated from the thermal contribution and was found to reduce the response by over 32% for a current density of 107 A/cm2
Keywords :
cobalt alloys; copper; ferromagnetic materials; giant magnetoresistance; iron alloys; magnetic heads; magnetic multilayers; magnetoresistive devices; nickel alloys; silver; 0.5 to 16 micron; NiCoFe-Cu; NiCoFe/Cu; NiFe-Ag; NiFe/Ag; antiparallel alignment; current density; giant magnetoresistive thin-film devices; heating effects; low-field dips; magnetostatic coupling; normalized maximum change; read head devices; self-field effects; size-effect measurements; track width; Conductivity; Couplings; Current measurement; Giant magnetoresistance; Gold; Magnetic field measurement; Magnetic separation; Magnetostatics; Size measurement; Transistors;
Journal_Title :
Magnetics, IEEE Transactions on
