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Paper detail

Response to noise of a spin transfer vortex based nano-oscillator

We investigate experimentally and analytically the impact of thermal noise on the sustained gyrotropic mode of vortex magnetization in spin transfer nano-oscillators and its consequence on the linewidth broadening due to the different nonlinear contributions. Performing some time domain measurements, we are able to extract separately the phase noise and the amplitude noise at room temperature for several values of dc current and perpendicular field. For a theoretical description of the experiments, we extend the general model of nonlinear auto-oscillators to the case of vortex core dynamics and provide some analytical expressions of the response-to-noise of the system as the coupling coefficient between the phase and the amplitude of the vortex core dynamics due to the nonlinearities. From the analysis of our experimental results, we demonstrate the major role of the amplitude-to-phase noise conversion on the linewidth broadening, and propose some solutions to improve the spectral coherence of vortex based spin transfer nano-oscillators.

preprint2013arXivOpen access
Eva GrimaldiAntoine DussauxPaolo BortolottiJulie GrollierGregoire PilletAkio FukushimaHitoshi KubotaKay YakushijiShinji YuasaVincent Cros
cond-mat.mes-hall
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Eva GrimaldiAntoine DussauxPaolo BortolottiJulie GrollierGregoire PilletAkio FukushimaHitoshi KubotaKay YakushijiShinji YuasaVincent Cros

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