Title :
Giant magnetoresistance in electrodeposited films
Author :
Schwarzacher, W. ; Lashmore, D.S.
Author_Institution :
HH Wills Phys. Lab., Bristol, UK
fDate :
7/1/1996 12:00:00 AM
Abstract :
Electrodeposition is one of the simpler and cheaper processes available for the fabrication of thin metal films. Recent developments have made it possible to electrodeposit a wide range of nanostructured materials, including many that exhibit giant magnetoresistance (GMR). We review progress in the growth and characterization of such films, starting with electrodeposited ferromagnetic metal/non-magnetic metal superlattices in which the individual layers can be as thin as 10 Å or less and for which several workers have reported significant GMR at room temperature. Next we describe a method which can be used to produce superlattices having a thickness of several μm and an area of less than 1 μm2. These “superlattice nanowires” are ideal for measurements of GMR in the current perpendicular to plane (CPP) geometry and are an example of a structure which at present can only be produced by electrodeposition. Finally, we consider the electrodeposition of heterogeneous alloy films showing GMR
Keywords :
Kerr magneto-optical effect; electrodeposition; giant magnetoresistance; magnetic multilayers; metallic superlattices; metallic thin films; nanostructured materials; current perpendicular to plane geometry; electrodeposited films; electrodeposition; ferromagnetic metal/nonmagnetic metal superlattices; giant magnetoresistance; heterogeneous alloy films; magnetooptic Kerr effect; nanostructured materials; superlattice nanowires; thin metal films; Giant magnetoresistance; Magnetic films; Magnetic materials; Magnetic recording; Magnetic sensors; Magnetic superlattices; Metallic superlattices; Molecular beam epitaxial growth; Perpendicular magnetic recording; Physics;
Journal_Title :
Magnetics, IEEE Transactions on
