High domain wall velocity at zero magnetic field induced by low current densities in spin-valve nanostripes

Albert Fert (UMP CNRS/THALES); Carsten Tieg (ESRF); Christian Ulysse (LPN); Cyrile Deranlot (UMP CNRS/THALES); Edgar Bonet (NEEL); Erika Jimenez; Fr\'edric Petroff (UMP CNRS/THALES); Giancarlo Faini (LPN); Jan Vogel (NEEL); Julio Camarero

arxiv: 0810.3576 · v2 · submitted 2008-10-20 · ❄️ cond-mat.mtrl-sci

High domain wall velocity at zero magnetic field induced by low current densities in spin-valve nanostripes

Stefania Pizzini (NEEL) , Vojtech Uhlir (NEEL) , Jan Vogel (NEEL) , Nicolas Rougemaille (NEEL) , Sana Laribi (UMP CNRS/THALES) , Vincent Cros (UMP CNRS/THALES) , Erika Jimenez , Julio Camarero

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Carsten Tieg (ESRF) Edgar Bonet (NEEL) Marlio Bonfim (NEEL) Richard Mattana (UMP CNRS/THALES) Cyrile Deranlot (UMP CNRS/THALES) Fr\'edric Petroff (UMP CNRS/THALES) Christian Ulysse (LPN) Giancarlo Faini (LPN) Albert Fert (UMP CNRS/THALES)

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classification ❄️ cond-mat.mtrl-sci

keywords domainwallcurrentdensitiesmagneticfieldhighpinning

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Current-induced magnetic domain wall motion at zero magnetic field is observed in the permalloy layer of a spin-valve-based nanostripe using photoemission electron microscopy. The domain wall movement is hampered by pinning sites, but in between them high domain wall velocities (exceeding 150 m/s) are obtained for current densities well below $10^{12} \unit{A/m^2}$, suggesting that these trilayer systems are promising for applications in domain wall devices in case of well controlled pinning positions. Vertical spin currents in these structures provide a potential explanation for the increase in domain wall velocity at low current densities.

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High domain wall velocity at zero magnetic field induced by low current densities in spin-valve nanostripes

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