This paper studies the dynamical response of a magnetic nanowire driven by a localized spin-polarized current. At zero field and with shifted vortex polarizer, the dispersion relation is characterized by a finite wave vector at microwave frequencies approaching the ferromagnetic resonance frequency. We have interpreted this result by assuming that a given mixed mode of the nanowire having a frequency close to the quasi-uniform mode is excited because of the non-uniform current polarization. For out-of-plane fields, we have observed that, for a fixed frequency, the wave vector of a propagating spin-wave does not depend on whether the excitation was performed by means of either dc or microwave current
Nanowire spin-torque oscillator with non-uniform polarizer: a micromagnetic study / Giordano, A; Carpentieri, Mario; Zivieri, Roberto; Siracusano, G; Azzerboni, B; Finocchio, G.. - In: IEEE TRANSACTIONS ON MAGNETICS. - ISSN 0018-9464. - 50:11(2014). (Intervento presentato al convegno INTERMAG 2014, IEEE International Magnetics Conference) [10.1109/TMAG.2014.2330765].
Nanowire spin-torque oscillator with non-uniform polarizer: a micromagnetic study
CARPENTIERI, Mario;ZIVIERI, Roberto;
2014-01-01
Abstract
This paper studies the dynamical response of a magnetic nanowire driven by a localized spin-polarized current. At zero field and with shifted vortex polarizer, the dispersion relation is characterized by a finite wave vector at microwave frequencies approaching the ferromagnetic resonance frequency. We have interpreted this result by assuming that a given mixed mode of the nanowire having a frequency close to the quasi-uniform mode is excited because of the non-uniform current polarization. For out-of-plane fields, we have observed that, for a fixed frequency, the wave vector of a propagating spin-wave does not depend on whether the excitation was performed by means of either dc or microwave currentI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
