On the origin of coercivity reduction in surface patterned magnetic thin films

Abstract: Spinel nickel ferrite (NiFe2O4) is a promising material for next generation high‐frequency sensors, antennae and microwave devices. A key issue to be addressed is the magnetic loss, which is proportional to frequency and becomes substantial at frequencies above 1 GHz. Previously, we reported on coercivity reduction in NiFe2O4 through surface patterning (Rasic and Schwartz, MRS Commun. 3, 207 (2013) and IEEE Magn. Lett. 5, 1 (2014) ). Here, we report on the effects of varying the feature size on magnetic behavi… Show more

“…This is quite unexpected, as the shape anisotropy term is expected to drive the magnetization in-plane. In fact, we performed micromagnetic simulations of triangular islands similar in size to the experimental ones using the MuMax3 58 software and the material parameters for bulk NFO 59 . For such case, the in-plane magnetization should point in-plane along the projection of the magnetocristalline axis, and out of plane with an angle of ±20° with the film plane.…”

Structure and magnetism of ultrathin nickel-iron oxides grown on Ru(0001) by high-temperature oxygen-assisted molecular beam epitaxy

“…This is quite unexpected, as the shape anisotropy term is expected to drive the magnetization in-plane. In fact, we performed micromagnetic simulations of triangular islands similar in size to the experimental ones using the MuMax3 58 software and the material parameters for bulk NFO 59 . For such case, the in-plane magnetization should point in-plane along the projection of the magnetocristalline axis, and out of plane with an angle of ±20° with the film plane.…”

Structure and magnetism of ultrathin nickel-iron oxides grown on Ru(0001) by high-temperature oxygen-assisted molecular beam epitaxy

Nanostructured Magnetic Thin Films and Coatings

Underlying causes of the magnetic behavior in surface patterned NiFe2O4 thin films