Magnetization self-oscillations induced by spin-polarized currents

Spin-polarized currents may exert significant torques on nanoscale ferromagnets. Experiments show that both switching and microwave oscillations of the magnetization are induced when the system is subject to the spin-polarized current and an external magnetic field. Under these conditions the nanoma...

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Bibliographic Details
Published inINTERMAG Asia 2005. Digests of the IEEE International Magnetics Conference, 2005 pp. 7 - 8
Main Authors Bertotti, G., Serpico, C., Mayergoyz, I.D., Bonin, R., Magni, A., d'Aquino, M.
Format Conference Proceeding
LanguageEnglish
Published IEEE 2005
Subjects
Anisotropic magnetoresistance
Bifurcation
Current density
Electrons
Equations
Nonlinear systems
Polarization
Saturation magnetization
Vectors
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ISBN9780780390096
0780390091
ISSN2150-4598
DOI10.1109/INTMAG.2005.1463432

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Summary:Spin-polarized currents may exert significant torques on nanoscale ferromagnets. Experiments show that both switching and microwave oscillations of the magnetization are induced when the system is subject to the spin-polarized current and an external magnetic field. Under these conditions the nanomagnet behaves like a nonlinear system forced far from equilibrium by the current. For this reason, the correct framework for the study of the problem is nonlinear dynamical system theory and bifurcation theory. In this work, we present a method based on these ideas whereby an analytical description of the magnetization dynamics is worked out by taking advantage of the fact that both intrinsic damping and spin transfer effects can be treated as perturbations of the free precessional dynamics. The information obtained in this manner leads to predictions and explanations of many experimental results, recently reported in the literature.
ISBN:9780780390096
0780390091
ISSN:2150-4598
DOI:10.1109/INTMAG.2005.1463432