Publication detail

High Domain Wall Velocity at Zero Magnetic Field Induced by Low Current Densities in Spin Valve Nanostripes

PIZZINI, S. UHLÍŘ, V. VOGEL, J. ROUGEMAILLE, N. LARIBI, S. CROS, V. JIMÉNEZ, E. CAMARERO, J. TIEG, C. BONET, E. BONFIM, M. MATTANA, R. DERANLOT, C. PETROFF, F. ULYSSE, C. FAINI, G. FERT, A.

Original Title

High Domain Wall Velocity at Zero Magnetic Field Induced by Low Current Densities in Spin Valve Nanostripes

Type

journal article - other

Language

English

Original Abstract

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 A/m2, 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.

Keywords

Domain Wall; Spin Valve, Motion

Authors

PIZZINI, S.; UHLÍŘ, V.; VOGEL, J.; ROUGEMAILLE, N.; LARIBI, S.; CROS, V.; JIMÉNEZ, E.; CAMARERO, J.; TIEG, C.; BONET, E.; BONFIM, M.; MATTANA, R.; DERANLOT, C.; PETROFF, F.; ULYSSE, C.; FAINI, G.; FERT, A.

RIV year

2009

Released

30. 1. 2009

ISBN

1882-0778

Periodical

Applied Physics Express

Year of study

2

Number

2

State

Japan

Pages from

023003-1

Pages to

023003-3

Pages count

3