D.V. Slobodianiuk scite author profile

The experimental investigation of the spin pumping process by dipolar‐exchange magnons parametrically excited in in‐plane magnetized yttrium iron garnet/platinum bilayers is presented. The electric voltage generated in the platinum layer via the inverse spin Hall effect (ISHE) results from contributions of two opposite spin currents formed by the longitudinal spin Seebeck effect and by the spin pumping from parametric magnons. In the field‐dependent measurements of the spin pumping‐induced component of the ISHE‐voltage, a clearly visible sharp peak is detected at high pumping powers. It is found that the peak position is determined by the process of confluence of two parametrically excited magnons into one magnon possessing twice the frequency and the sum of the wavevectors of the initial magnons. It is demonstrated that under the action of a rather strong parametric pumping field this confluence process results in the increase of the total number of magnons in the magnetic sample, and thus leads to the enhancement of the spin pumping effect.

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High-speed line-focus Raman microscopy with spectral decomposition of mouse skin

Ilchenko

Pilgun

Makhnii

et al. 2016

Vibrational Spectroscopy

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Nonlinear Ferromagnetic Resonance in Nanostructures Having Discrete Spectrum of Spin-Wave Modes

et al. 2013

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International audienceNonlinear ferromagnetic resonance (NFMR) at the nanoscale differs from the same phenomenon in bulk magneticsamples due to the nanosize-related discreteness of the spin wave spectrum. Because of the spectrum discreteness,the conservation laws for multiwave parametric interaction processes cannot be fulfilled exactly and become nonresonant.The presence of the nonresonant parametric processes in a strongly driven magnetic nanosystem can be detectedexperimentally as distortions on the NFMR curve caused by the nonresonant excitation of spin wave modes

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Recent Trends in Microwave Magnetism and Superconductivity

et al. 2019

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We review the development trends in microwave magnetism and superconductivity over the last five decades. The review contains the key results of recent studies related to the promising areas of modern magnetism and applied physics – spintronics, magnonics, magnon caloritronics, physics of magnonic crystals, spin-wave logic, and the development of novel micro- and nano-scale magnetic devices. The main achievements in these fields of physics are summarized and generalized.

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Nonlinear Ferromagnetic Resonance in the Presence of Three-Magnon Scattering in Magnetic Nanostructures

et al. 2019

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D.V. Slobodianiuk

Enhancement of the Spin Pumping Effect by Magnon Confluence Process in YIG/Pt Bilayers

High-speed line-focus Raman microscopy with spectral decomposition of mouse skin

Nonlinear Ferromagnetic Resonance in Nanostructures Having Discrete Spectrum of Spin-Wave Modes

Recent Trends in Microwave Magnetism and Superconductivity

Nonlinear Ferromagnetic Resonance in the Presence of Three-Magnon Scattering in Magnetic Nanostructures

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