Title :
MR Enhancement in a Current Perpendicular-to-Plane Spin Valve by Insertion of a Ferromagnetic Layer Within the Spacer Layer
Author :
Kumar, S. Bala ; Tan, S.G. ; Jalil, M.B.A. ; Teo, K.L.
Author_Institution :
Data Storage Inst., Nat. Univ. of Singapore
Abstract :
In this paper, we propose an alternative method to improve magnetoresistance by inserting a thin ferromagnetic (FM) layer into the nonmagnetic (NM) spacer of a basic spin-valve (SV) trilayer (FM1-NM-FM1), thus creating a penta-layer SV structure (FM1-NM-FM2-NM-FM1). We investigated the effect of increasing the resistivity (rhoF2) of the FM2 on overall magnetoresistance (MR). We performed both analytical and numerical studies on the MR of the current perpendicular-to-plane (CPP) structure using the phenomenological spin drift-diffusion models. For finite rhoF2 , the MR profile is dependent on the intrinsic conductance polarization (alphaF2) of FM2. We found that inserting FM2 enhances MR when alphaF2 exceeds a critical value of alpha2C. It is found that MR can be doubled by inserting a FM layer with high alphaF2, such as the half-metallic Cr 2O. We have numerically calculated MRmax and the corresponding rhoF20 values for different alphaF2 values. Finally, we studied the effect of spin relaxation on the MR of the CPP SV
Keywords :
ferromagnetic materials; magnetic multilayers; magnetic relaxation; magnetoresistance; spin valves; Cr2O; current perpendicular-to-plane structure; intrinsic conductance polarization; magnetoresistance; nonmagnetic spacer; penta-layer SV structure; phenomeno-logical spin drift-diffusion models; resistivity; spin relaxation; spin valve trilayer; thin ferromagnetic layer; Conducting materials; Conductivity; Current density; Electrons; Equations; Magnetic materials; Magnetoresistance; Material storage; Polarization; Spin valves; Current perpendicular-to-plane (CPP)-GMR; ferromagnetic; magnetoresistance (MR); spin valve (SV);
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.878659
