A. Paetzold scite author profile

A model for the modifications of the exchange bias (EB) field of antiferromagnet (AF)/ferromagnet (F) bilayers with a polycrystalline or multidomain AF layer induced by ion bombardment (IB) in an external magnetic field is proposed. The model is based on a known two-energy level model for an antiferromagnetic grain or domain in contact with a ferromagnet where two free energy minima are separated by an energy barrier. The model explains the as yet unexplained increase of upon IB on the basis of the grain/domain size and magnetic anisotropy constants distributions in the antiferromagnetic layer after its deposition and on the basis of a twofold effect of the IB on the antiferromagnetic grains/domains: (1) IB acts like local hyperthermal heating leading to an almost immediate increase of the sample's EB. (2) Defects induced by IB in the antiferromagnetic grains/domains lead to a decrease of the energy barrier between the two minima, resulting in a slow additional increase of with time (with temperature T as a parameter) after the bombardment. The model is tested by experiments on the time dependence of the EB and coercive fields after the IB of NiO/NiFe bilayers.

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Thermally activated self-alignment of exchange coupling in NiO/NiFe bilayers

Paetzold

Röll

2002

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Long-term and temperature stability of the exchange coupling are important conditions for the practical application of spin-valve devices. Here we present magnetic measurements on the properties of sputtered NiO/NiFe bilayers. After deposition a temperature dependent magnetic self-alignment process was observed where the exchange bias field H eb increased according to a ln(t) law. The temperature dependence of this aftereffect indicates that a thermally activated process takes place which can be explained by a two energy-level relaxation model. In addition the long-term stability of the exchange coupling during a forced antiparallel alignment of the NiFe layer was investigated. A significant improvement of the coupling stability can be reached by cooling the samples through the Neél temperature in a magnetic field. Finally, the temperature dependence of H eb was determined for differently treated samples.

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Temperature dependence of ferromagnetic resonance in permalloy/NiO exchange-biased films

et al. 2005

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Alteration of exchange anisotropy and magnetoresistance in Co/Cu/Co/FeMn spin valves by ion bombardment

Engel

Krug

Schmoranzer

et al. 2003

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Enhancement of magnetoresistance in [ Pd ∕ Co ] N ∕ Cu ∕ Co ∕ [ Pd ∕ Co ] N ∕ Fe Mn spin valves J. Appl. Phys. 99, 08R504 (2006); 10.1063/1.2171932 Rotating-field magnetoresistance of exchange-biased spin valvesThe dose dependence of the exchange bias field and magnetoresistance by 10 keV-He ion bombardment in an applied magnetic field were investigated for Co/Cu/Co/FeMn top spin valves. The exchange bias field H eb of the pinned Co layer can be enhanced, reversed, and reduced similarly to an exchange biased bilayer system. Additionally, upon ion bombardment, the free Co layer couples increasingly strong to the pinned Co layer until they act magnetically as one single pinned layer. The magnetoresistance decreases exponentially with increasing ion dose, caused by a higher sheet resistance due to increasing defect density and increasing coupling between the free and the pinned ferromagnetic layer. A phenomenological model is extended to describe the ion bombardment-induced changes of H eb of ferromagnet/antiferromagnet exchange biased bilayers by including saturation effects. This model is compared to available experimental data.

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Thermal Stability of Film Systems for Spin‐Valve Applications

Paetzold

Loch

Röll

2000

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A. Paetzold

On the origin of ion bombardment induced exchange bias modifications in polycrystalline layers

Thermally activated self-alignment of exchange coupling in NiO/NiFe bilayers

Temperature dependence of ferromagnetic resonance in permalloy/NiO exchange-biased films

Alteration of exchange anisotropy and magnetoresistance in Co/Cu/Co/FeMn spin valves by ion bombardment

Thermal Stability of Film Systems for Spin‐Valve Applications

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