R. I. Tobey scite author profile

We generate in-plane magnetoelastic waves in nickel films using the all-optical transient grating technique. When performed on amorphous glass substrates, two dominant magnetoelastic excitations can be resonantly driven by the underlying elastic distortions, the Rayleigh surface acoustic wave and the surface skimming longitudinal wave. An applied field, oriented in the sample plane, selectively tunes the coupling between magnetic precession and one of the elastic waves, thus demonstrating selective excitation of coexisting, large-amplitude magnetoelastic waves. Analytical calculations based on the Green's function approach corroborate the generation of multiple surface acoustic transients with disparate decay dynamics.

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Frequency tunable surface magneto elastic waves

Janusonis

Chang

Loosdrecht

et al. 2015

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We use the transient grating technique to generate narrow-band, widely tunable, in-plane surface magnetoelastic waves in a nickel film. We monitor both the structural deformation of the acoustic wave and the accompanying magnetic precession and witness their intimate coupling in the time domain. Strikingly, when an in plane magnetic field is applied parallel to the acoustic propagation direction, we witness its resonant coupling to the ferromagnetic resonance. V

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Parametric frequency mixing in a magnetoelastically driven linear ferromagnetic-resonance oscillator

et al. 2017

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We demonstrate the nonlinear frequency conversion of ferromagnetic resonance (FMR) frequency by optically excited elastic waves in a thin metallic film on dielectric substrates. Time-resolved probing of the magnetization directly witnesses magneto-elastically driven second harmonic generation, sum-and difference frequency mixing from two distinct frequencies, as well as parametric downconversion of each individual drive frequency. Starting from the Landau-Lifshitz-Gilbert equations, we derive an analytical equation of an elastically driven nonlinear parametric oscillator and show that frequency mixing is dominated by the parametric modulation of FMR frequency. PACS numbers:Parametric behaviour emerges in a wide range of periodically driven systems when their parameters are also periodically modulated [1].Examples can be found in nano-optomechanical [2-4] and microelectromechanical systems [5], (spin) wave dynamics [6], quantum circuitry [7], energy harvesting applications [8], and in line with our current report, magneto-mechanical systems [9] including spin pumping capabilities [10]. The utility of parametric behaviour has been shown for quantum limited detection, noise floor reduction or low noise amplification of small signals [2,7].Parametric phenomena in magnetization dynamics have also been extensively studied in the framework of spintronic and magnonic applications [11], where the downconversion of a microwave-driven uniform precession can generate two counter-propagating spin waves of varying frequency and wavevector. The onset of parametric behaviour in these cases is monitored via the enhanced damping and linewidth changes of the ferromagnetic resonance (FMR) precessional motion. Furthermore, time domain probing of FMR precession modulated with multiple microwave electromagnetic fields leads to seeded parametric downconversion [12]. Additional studies along these lines have resulted in the generation and detection of a range of frequency mixing processes of both uniform precessional modes as well as higher energy spin waves [13][14][15], including frequency upand down-conversion.Looking beyond microwave excitation, the overlapping frequency range of (surface) acoustic waves and magnetization precession provides for a unique opportunity to study their interactions and to explore physical processes where coherent elastic deformations could provide the necessary parametric modulation to drive complex magnetization dynamics. In recent years, magnetoelastic interactions have seen a resurgence of interest, and linear coupling between these degrees of freedom have been demonstrated [16][17][18][19][20][21]. To our knowledge, only a single report has discussed the potential for nonlinearities in the magnetoelastic interactions [22].In this report we present experimental evidence for the nonlinear (in the sense of frequency mixing) interaction between multiple coherent elastic deformations and the magnetization precession in a thin ferromagnetic film. To explain our results we perform analytical calculations of...

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Dynamics of photo-excited electrons in magnetically ordered TbMnO₃

Handayani

Tobey

Janusonis

et al. 2013

J. Phys.: Condens. Matter

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Towards massively parallelized all-optical magnetic recording

Davies¹,

Janusonis

Kimel

et al. 2018

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We demonstrate an approach to parallel all-optical writing of magnetic domains using spatial and temporal interference of two ultrashort light pulses. We explore how the fluence and grating periodicity of the optical transient grating influence the size and uniformity of the written bits. Using a total incident optical energy of 3.5 lJ, we demonstrate the capability of simultaneously writing 10 2 spatially separated bits, each featuring a relevant lateral width of $1 lm. We discuss viable routes to extend this technique to write individually addressable, sub-diffraction-limited magnetic domains in a wide range of materials.

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R. I. Tobey

Ultrafast magnetoelastic probing of surface acoustic transients

Frequency tunable surface magneto elastic waves

Parametric frequency mixing in a magnetoelastically driven linear ferromagnetic-resonance oscillator

Dynamics of photo-excited electrons in magnetically ordered TbMnO₃

Towards massively parallelized all-optical magnetic recording

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About

R. I. Tobey

Ultrafast magnetoelastic probing of surface acoustic transients

Frequency tunable surface magneto elastic waves

Parametric frequency mixing in a magnetoelastically driven linear ferromagnetic-resonance oscillator

Dynamics of photo-excited electrons in magnetically ordered TbMnO3

Towards massively parallelized all-optical magnetic recording

Contact Info

Product

Resources

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Dynamics of photo-excited electrons in magnetically ordered TbMnO₃