Title :
Effective Anisotropy Fields and Ferromagnetic Resonance Behaviors of CoFe/PtMn/CoFe Trilayers
Author :
Pettiford, C. ; Zeltser, A. ; Yoon, S.D. ; Harris, V.G. ; Vittoria, C. ; Sun, N.X.
Author_Institution :
Dept. of Electr. & Comput. Eng., Northeastern Univ., Boston, MA
Abstract :
Ferromagnetic (FM)/antiferromagnetic (AFM)/ferromagnetic trilayers of Ru seeded Co90Fe10/Pt50Mn50 /Co90Fe10 and Co84Fe16/Pt50Mn50/Co84 Fe16 were deposited, and their magnetic properties characterized at dc and at microwave frequencies. A ferromagnetic resonance (FMR) linewidth of 45 Oe at X-band (~9.5 GHz) was achieved in the Co84Fe16/Pt50Mn50/Co84 Fe16 trilayer. The minimum FMR linewidth occurs at an intermediate CoFe thickness, which is in contrast to the typical monotonic drop of FMR linewidth with the increment of FM layer thickness in the exchange-coupled FM/AFM bilayers. The CoFe/PtMn/CoFe trilayers show significantly enhanced anisotropy field up to 340 Oe at X band, which is more than double of that at dc frequency, indicating an obvious discrepancy between the anisotropy field at dc and at X band
Keywords :
antiferromagnetic materials; cobalt alloys; ferromagnetic materials; ferromagnetic resonance; iron alloys; magnetic anisotropy; magnetic multilayers; manganese alloys; platinum alloys; Co84Fe16-Pt50Mn50-Co 84Fe16; Co90Fe10-Pt50Mn50-Co 90Fe10; FMR; Ru seeded; X-band; dc frequencies; enhanced anisotropy field; exchange coupling; ferromagnetic resonance; ferromagnetic/antiferromagnetic trilayers; magnetic multilayer; magnetic properties; microwave frequencies; Anisotropic magnetoresistance; Couplings; Iron; Magnetic field measurement; Magnetic films; Magnetic materials; Magnetic resonance; Microwave frequencies; Microwave measurements; Saturation magnetization; Antiferromagnetic/ferromagnetic (AFM/FM); exchange coupling; ferromagnetic resonance; magnetic multilayer;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.879759
