Title :
Micromagnetic calculation of bias field and coercivity of polycrystalline ferromagnetic/antiferromagnetic layers
Author :
Kirschner, Markus ; Suess, Dieter ; Schrefl, Thomas ; Fidler, Josef ; Chapman, John N.
Author_Institution :
Inst. of Solid State Phys., Vienna Univ. of Technol., Austria
Abstract :
Domain processes associated with exchange bias in ferromagnetic /antiferromagnetic layers are investigated using a micromagnetic approach. The model gives quantitative estimates of the bias field and the coercivity for bilayers with fully compensated interfaces. Both simulations and transmission electron microscopy studies of IrMn-NiFe systems show 360° wall loops and 360° wall segments during the reversal of the F layer. The calculated bias field is in range of μ0Heb=3 mT to μ0Heb=20 mT. The bias field shows a maximum as a function of the antiferromagnet (AF) thickness. It increases sharply with increasing AF thickness at low thicknesses and decreases moderately with increasing AF thickness at higher thicknesses.
Keywords :
antiferromagnetic materials; coercive force; exchange interactions (electron); ferromagnetic materials; iridium alloys; iron alloys; magnetic domain walls; magnetic thin films; magnetisation reversal; manganese alloys; micromagnetics; nickel alloys; transmission electron microscopy; 3 to 20 mT; 360° wall loops; 360° wall segments; IrMn-NiFe; bias field; bilayers; coercivity; domain processes; fully compensated interfaces; micromagnetic approach; micromagnetic calculation; polycrystalline ferromagnetic/antiferromagnetic layers; Anisotropic magnetoresistance; Antiferromagnetic materials; Coercive force; Electrons; Magnetic moments; Magnetic sensors; Magnetization; Micromagnetics; Physics; Switches;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.815580
