Title :
Determination of Domain Wall Depinning and Driving Currents in Doped Permalloy Structures
Author :
Lepadatu, Serban ; Claydon, Jill S. ; Ciudad, David ; Kinane, Christy J. ; Langridge, Sean ; Cavill, Stuart ; Dhesi, Sarnjeet S. ; Marrows, Christopher H.
Author_Institution :
E.C. Stoner Lab., Univ. of Leeds, Leeds, UK
fDate :
6/1/2010 12:00:00 AM
Abstract :
In this paper we investigate the domain wall pinning positions at parabolic pinning potentials in Gd doped wires. Increasing the Gd doping percentage favors the formation of vortex domain walls, shown to be due to an increase in the out of plane anisotropy, allowing the pinning of a vortex and a transverse domain wall in two similar parabolic pinning potentials. Using pulsed currents to investigate the difference in the depinning characteristics of these two domain wall types, we show that the current density required for steady domain wall motion is smaller than the current density required to set it in motion and estimate this difference to be of the order .
Keywords :
Permalloy; current density; doping profiles; gadolinium; magnetic anisotropy; magnetic domain walls; Ni80Fe20:Gd; current density; domain wall depinning; domain wall motion; doped permalloy structures; doped wires; doping percentage; driving currents; out-of-plane anisotropy; parabolic pinning potentials; pulsed currents; transverse domain wall; vortex domain walls; Anisotropic magnetoresistance; Astronomy; Current density; Doping; Laboratories; Magnetic domain walls; Magnetic field measurement; Magnetic materials; Physics; Wires; Domain wall; spin transfer torque;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2010.2042578
