Ferromagnetic resonance studies in Fe/Ti multilayers

“…5 with Eq. (7). In order to determine the interlayer exchange coupling constant A, we performed spin-wave resonance experiment on a single-layer Ni thin film made under the same conditions as that of the Ni layers in multilayers.…”

“…The magnetic properties of multilayers are strongly dependent on their detailed structure and composition, which are determined by the growth conditions used during fabrication [5][6][7]. For example, the degree of mixing between adjacent layers determines the amount of Ni able to contribute to the magnetic properties of the film, and the degree of crystallographic texture within the layers, combined with any surface anisotropy present determines the overall anisotropy of the multilayers.…”

Magnetic properties and interlayer coupling of sputtered Ni/V multilayers

“…5 with Eq. (7). In order to determine the interlayer exchange coupling constant A, we performed spin-wave resonance experiment on a single-layer Ni thin film made under the same conditions as that of the Ni layers in multilayers.…”

“…The magnetic properties of multilayers are strongly dependent on their detailed structure and composition, which are determined by the growth conditions used during fabrication [5][6][7]. For example, the degree of mixing between adjacent layers determines the amount of Ni able to contribute to the magnetic properties of the film, and the degree of crystallographic texture within the layers, combined with any surface anisotropy present determines the overall anisotropy of the multilayers.…”

Magnetic properties and interlayer coupling of sputtered Ni/V multilayers

“…The FMR spectra of sputtered Fe/Ti multilayers were obtained as a function of orientation of 4 the applied magnetic field from in-plane to out-of-plane and were fitted theoretically to determine the magnetic anisotropy. Spin-waves resonance modes were observed in Fe/Ti multilayers (t Fe and [14]. The magnetic properties of sputtered Ni/V multilayers have been studied in a vibrating sample magnetometer, torque magnetometer and by FMR.…”

“…It is valuable to develop some quantum methods to study the microwave properties of magnetic multilayer films. According to earlier work, the microwave properties of a magnetic multilayer thin film are significantly affected by magnetic surface anisotropies [13,25,27,28], interface anisotropies [13,24,25,26], interfacial couplings [24,25,26] and an external magnetic field [14,25,28]. Therefore, our present proposal is to utilize the linear spin-wave approach and Green's function technique to study the SWR frequency (including FMR frequency) in a ferromagnetic multilayer thin film with single-ion surface, interface and bulk anisotropies.…”

Spin-wave resonance frequency in a multi-layer film

Spin Wave Resonance Frequency in the Bilayer Ferromagnetic Film