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Paper detail

Spin-torque driven magnetic vortex self-oscillations in perpendicular magnetic fields

We have employed complete micromagnetic simulations to analyze dc current driven self-oscillations of a vortex core in a spin-valve nanopillar in a perpendicular field by including the coupled effect of the spin-torque and the magnetostatic field computed self-consistently for the entire spin-valve. The vortex in the thicker nanomagnet moves along a quasi-elliptical trajectory that expands with applied current, resulting in blue-shifting of the frequency, while the magnetization of the thinner nanomagnet is non-uniform due to the bias current. The simulations explain the experimental magnetoresistance-field hysteresis loop and yield good agreement with the measured frequency vs. current behavior of this spin-torque vortex oscillator.

preprint2010arXivOpen access
G. FinocchioV. S. PribiagL. TorresR. A. BuhrmanB. Azzerboni
cond-mat.mes-hallcond-mat.other
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G. FinocchioV. S. PribiagL. TorresR. A. BuhrmanB. Azzerboni

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