G. M. Nikoladze scite author profile

To calculate the torque acting on the magnetization vector during the process of 90° pulsed magnetization in real ferrite-garnet films in which, besides in-plane anisotropy, biaxial anisotropy is present, the method based on the analysis of the operating point trajectory is used. Analysis has shown that the shape of the time dependence of the torque Tφ in the time interval, within which the exciting of the magnetization oscillations occurs, is slightly dependent on the pulse front duration. As a result the magnetization oscillations (with a period of Tos ≅ 2 ns) can be observed at the pulse front duration τf ≥ 14 ns.

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Analysis of the effect of delayed acceleration of the transient process in 90° pulsed magnetization of real ferrite-garnet films with easy-plane anisotropy

Kolotov

Matyunin

Nikoladze

et al. 2012

Phys. Solid State

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Analysis of In-Plane Anisotropy Influence on Nonlinear Magnetization Oscillations Accompanying 90° Pulsed Reversal Processes in Real Ferrite-Garnet Films

Kolotov

Matyunin

Nikoladze

et al. 2012

SSP

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G. M. Nikoladze

Torque acting on the magnetization vector during 90° pulsed magnetization of real garnet ferrite films with in-plane anisotropy

Study of the Torque Acting on the Magnetization during 90° Pulsed Reversal Process in Ferrite-Garnet Films with In-Plane Anisotropy

Analysis of the effect of delayed acceleration of the transient process in 90° pulsed magnetization of real ferrite-garnet films with easy-plane anisotropy

Analysis of In-Plane Anisotropy Influence on Nonlinear Magnetization Oscillations Accompanying 90° Pulsed Reversal Processes in Real Ferrite-Garnet Films

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