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MA: Fachverband Magnetismus
MA 15: Poster:ThinFilms(1-33),Transp.(34-49),ExchBias(50-56),
Spindynamics(57-70),Micro-nanostr.Mat.(71-82),
Particles/Clust.(83-88), Mag.Imag./Surface(89-96),
Spinelectronics(97-109), Theory/Micromag.(110-116),
Spinstruct/Phasetr.(117-128),Magn.Mat.(129-139),
Aniso.+Measuring(140-145), MolMag.(146-152),
MSMA(153-156)
MA 15.40: Poster
Dienstag, 27. März 2007, 15:00–19:00, Poster A
Spin transfer torque in granular films AgCo and spin-valve structure Co/Cu/CoNiFeSiB — •Yuansu Luo1, Markus Esseling1, Markus Münzenberg2, and Konrad Samwer1 — 1I. Phys. Institut — 2IV. Phys. Insitut, Universität Göttingen, Friedrich-Hund Platz 1, 37077 Göttingen
We explore spin transfer torque (STT) effect in granular films Ag70Co30 and spin-valve structure Co/Cu/(CoNiFe)74(SiB)26 by means of point contact technique. Several special properties, such as single-domain properties of Co nanoparticles, a large GMR effect (55% measured at 4.2K) in AgCo, a small coercivity (Hc≈1 Oe) and a low magnetization (Ms≈0.7 kG) of the amorphous free layer (CoNiFe)74(SiB)26, are convenient for STT observations. A novel STT effect is observed in the granular film, as the current rises above a threshold value Ic. It is accompanied with an abrupt decrease in resistance (R), presumably due to further alignment of small size Co granules. The behavior is polar and Ic disproportional to the magnetic field. For the spin-valve structure a normal current-induced magnetization switching was measured under a standard condition, i.e. an electron flux from the fixed Co-layer to the amorphous free layer (CoNiFe)74(SiB)26 stabilizes the parallel alignment (low R), while an opposite current results in the antialignment of two magnetic layers (high R). Supported by DFG-project, SA 337/9-1