Patent ID: 7400475
Filing Date: 2008-07-15
Classification: B82Y,G01R,G11B,Y10T

Abstract:
1. A patterned, synthetic longitudinally exchange biased GMR sensor with narrow effective trackwidth comprising: a substrate; a seed layer of NiCr formed to a thickness between approximately 50 and 65 angstroms; a first layer of antiferromagnetic material formed on the seed layer, said layer being a first antiferromagnetic pinning layer and said layer being a layer of MnPt formed to a thickness between approximately 80 and 150 angstroms; a synthetic antiferromagnetic pinned layer formed on said first antiferromagnetic pinning layer, the magnetization of said pinned layer being pinned in a transverse direction by exchange coupling to said first antiferromagnetic pinning layer; a non-magnetic spacer layer formed on said pinned layer; a ferromagnetic free layer formed on said non-magnetic spacer layer; a non-magnetic antiferromagnetically coupling layer formed on said ferromagnetic free layer; a longitudinal biasing layer formed on said coupling layer, said biasing layer being formed as two discrete, disconnected and laterally separated ferromagnetic segments, laterally and symmetrically disposed to either side of the antiferromagnetically coupling layer and wherein said segments are separated by a portion of said biasing layer which has been rendered non-magnetic and defines a physical trackwidth and wherein the ferromagnetic segments of said biasing layer are longitudinally magnetized and antiferromagnetically exchange coupled to said free layer through said antiferromagnetically coupling layer to form a synthetic antiferromagnetic exchange biased configuration; a patterned antiferromagnetic pinning layer of IrMn formed to a thickness between approximately 35 and 55 angstroms as two separate, disconnected segments, wherein a segment is formed on each ferromagnetic segment of said patterned, longitudinal biasing layer and is extensively coexisting with said segment, and wherein each of said patterned antiferromagnetic layer segments is exchange coupled to said longitudinal biasing layer segment thereby maintaining said longitudinal magnetization directions; a conductive lead layer formed on said antiferromagnetic layer and coextensive with it.