Large-angle, gigahertz-rate random telegraph switching induced by spin-momentum transfer

(2) Hitachi Global Storage Technologies; Boulder; CA); CO; Jordan Katine (2); Matt Carey (2) ((1) National Institute of Standards; Matthew R. Pufall (1); San Jose; Shehzaad Kaka (1); Steven E. Russek (1)

arxiv: cond-mat/0404109 · v1 · submitted 2004-04-05 · ❄️ cond-mat.mtrl-sci

Large-angle, gigahertz-rate random telegraph switching induced by spin-momentum transfer

Matthew R. Pufall (1) , William H. Rippard (1) , Shehzaad Kaka (1) , Steven E. Russek (1) , Thomas J. Silva (1) , Jordan Katine (2) , Matt Carey (2) ((1) National Institute of Standards , Technology

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Boulder CO (2) Hitachi Global Storage Technologies San Jose CA)

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classification ❄️ cond-mat.mtrl-sci

keywords switchingcurrentdynamicsmagneticmagnetizationmotionrandomrates

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We show that spin-polarized dc current passing through a small magnetic element induces two-state, random telegraph switching of the magnetization via the spin-momentum transfer effect. The resistances of the states differ by up to 50% of the change due to complete magnetization reversal. Fluctuations are seen for a wide range of currents and magnetic fields, with rates that can exceed 2 GHz, and involve collective motion of a large volume (10^4 nm^3) of spins. Switching rate trends with field and current indicate that increasing temperature alone cannot explain the dynamics. The rates approach a stochastic regime wherein dynamics are governed by both precessional motion and thermal perturbations.

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Large-angle, gigahertz-rate random telegraph switching induced by spin-momentum transfer

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