Magnetic and First-Order Reversal Curve Investigations of Antiferromagnetically Coupled Nanostructures of Co/Pd Multilayers

“…[18] However, they did not report a minor R-H loop as carried out in our study. Similar to the area in a B-H loop, the areas of these curves indicate the energy required to overcome the pinning strength of the domain walls [28,29]. The points marked in the figures correspond to different domain configurations, as shown the inset.…”

Nanoscale modification of magnetic properties for effective domain wall pinning

“…[18] However, they did not report a minor R-H loop as carried out in our study. Similar to the area in a B-H loop, the areas of these curves indicate the energy required to overcome the pinning strength of the domain walls [28,29]. The points marked in the figures correspond to different domain configurations, as shown the inset.…”

Nanoscale modification of magnetic properties for effective domain wall pinning

“…In addition, the double magnetic sub-lattice makes them one of the candidate for all optical switching media 31 32 33 34 35 . Nowadays, the perpendicular magnetized ferromagnetic composite were mainly based on transition-metal/rare-earth system, such as Dy-Co and Tb-Fe alloy/multilayers, and ferromagnetic/nonmagnetic multilayers with interlayer antiferromagnetic coupling 34 35 36 37 . However, the fabrication and investigation on perpendicularly magnetized ferrimagnetic composites based on 3 d metal without noble and rare-earth elements is rarely been reported, owing to the significant challenge of developing easily-to-built ferrimagnetic composites with systematically controllable parameters.…”

Artificially engineered Heusler ferrimagnetic superlattice exhibiting perpendicular magnetic anisotropy

Spin-reorientation transition and temperature dependence of high-frequency properties in [Co/Pd]6/Permalloy multilayer thin films