Title :
Magnetization Reversal of Micron-Scale Cobalt Structures With a Nanoconstriction
Author :
Sarau, G. ; Gliga, S. ; Hertel, R. ; Schneider, C.M.
Author_Institution :
Inst. fur Festkorperforschung, Forschungszentrum Julich GmbH
fDate :
6/1/2007 12:00:00 AM
Abstract :
The magnetization reversal behavior of 20 nm thick cobalt microstructures with a nanoconstriction of variable size has been studied using magnetoresistance measurements and micromagnetic simulations. Depending on the direction of the applied field relative to the current, reversible and irreversible switching events are observed, which can be explained using micromagnetic simulations. Anisotropic magnetoresistance (AMR) is the dominant resistance contribution in the systems measured. The simulations show that instead of one sharp domain wall, which may lead to ballistic magnetoresistance (BMR), two domain walls on each side of the nanocontact precede the complete reversal
Keywords :
cobalt; enhanced magnetoresistance; ferromagnetic materials; magnetic anisotropy; magnetic domain walls; magnetic switching; magnetisation reversal; micromagnetics; 20 nm; Co; anisotropic magnetoresistance; ballistic magnetoresistance; domain wall; irreversible switching; magnetization reversal; micromagnetic simulations; micron-scale cobalt structures; nanoconstriction; nanocontact; Anisotropic magnetoresistance; Ballistic magnetoresistance; Cobalt; Electrical resistance measurement; Magnetic field measurement; Magnetization reversal; Micromagnetics; Microstructure; Nanostructures; Thickness measurement; Cobalt; magnetic domain walls; magnetoresistance; micromagnetic simulations; nancontacts;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2007.892180
