Unveiling the Mechanisms Governing the Exchange Coupling and Coercivity Modifications in Annealed or Ion-Irradiated Ir−Mn / Fe /

Abstract: We investigate the modifications of the exchange bias, effective ferromagnet-antiferromagnet (FM-AFM) coupling, and coercivity in annealed or ion-irradiated Ir-Mn/spacer layer (SL)/Co trilayers. A ferromagnetic, either Fe or permalloy (Py), thin SL or a nonmagnetic Ru one with different thicknesses (t SL) is used. The magnetic characterization is performed at room temperature via conventional magnetometry and, partly, via soft-x-ray magnetic circular dichroism. The latter shows that at the FM-AFM interface the… Show more

“…The limited rare‐earth resources have ignited research interests in rare‐earth free permanent magnets . In nano‐ and heterostructural materials, magnetically hard–soft core/shell structures are able to strongly enhance the coercivity . The antiferromagnetic (AFM)/ferromagnetic (FM) core/shell nanoparticles of Co 0.3 Fe 0.7 O/Co 0.6 Fe 2.4 O 4 have a coercivity as high as 13.7 kOe .…”

Emerging High Coercivity and Huge Exchange Bias Effect in Single Phased Mn_1−xRu_xCo₂O₄ Compounds

“…The limited rare‐earth resources have ignited research interests in rare‐earth free permanent magnets . In nano‐ and heterostructural materials, magnetically hard–soft core/shell structures are able to strongly enhance the coercivity . The antiferromagnetic (AFM)/ferromagnetic (FM) core/shell nanoparticles of Co 0.3 Fe 0.7 O/Co 0.6 Fe 2.4 O 4 have a coercivity as high as 13.7 kOe .…”

Emerging High Coercivity and Huge Exchange Bias Effect in Single Phased Mn_1−xRu_xCo₂O₄ Compounds

Exchange bias enhancement in FM/AFM bilayers with interface coupling frustrations

Tuning of Exchange-Biased Ni-Mn/Fe-Ni Films With High Blocking Temperatures