Your search keyword '"magnetoelastic interaction"' showing total 78 results

1. Nonlinear Splitting of Magnetoelastic Resonance Line in Powerfully Excited Ferrite.

Author

Vlasov, V. S., Shavrov, V. G., and Shcheglov, V. I.

Subjects

*RESONANCE, *MAGNETIC fields, *FERROMAGNETIC resonance

Abstract

The nonlinear splitting of magnetoelastic resonance line in powerfully excited ferrite is investigated. It is shown that the amplitude of splited resonance has the same order of value that the amplitude of basis resonance and its frequency is determined by the upper boundary of nonlinear amplitude-frequency characteristic of magnetic system. It is found the threshold character of splitting additional resonance from general. It is determined the possibility of operation of splited elastic resonance frequency by changing of exited magnetic field value which has practical importance. [ABSTRACT FROM AUTHOR]

Published

2023

2. Spin Waves and Spin Currents in Magnon-Phonon Composite Resonator Induced by Acoustic Waves of Various Polarizations.

Author

Alekseev, S. G., Polzikova, N. I., Luzanov, V. A., and Nikitov, S. A.

Subjects

SOUND waves, SPIN waves, ACOUSTIC resonators, SPIN Hall effect, LONGITUDINAL waves, SPIN excitations

Abstract

In this work, we present the results of a systematic experimental study of linear and parametric spin wave resonant excitation accompanied by spin currents (spin pumping) in a multifrequency composite bulk acoustic wave resonator with a ZnO-YIG-GGG-YIG/Pt structure. The features of magnetic dynamics excitation in YIG films due to magnetoelastic coupling with acoustic thickness modes of various polarizations are studied. Acoustic spin waves and spin pumping are detected by simultaneous frequency-field mapping of the inverse spin Hall effect voltage and the resonant frequencies of thickness extensional modes. In the parametric range of frequencies and fields, acoustic spin pumping induced by both shear and longitudinal polarization modes was observed. Linear acoustic spin waves are excited only by shear thickness extensional modes because longitudinal acoustic waves do not couple with the magnetic subsystem in linear regime. [ABSTRACT FROM AUTHOR]

Published

2023

3. Strong coupling of magnetization dynamics of two antiferromagnetic layers by phonons

Author

Majid Shirdel-Havar and Babak Zare

Subjects

antiferromagnet, magnetoelastic interaction, magnon-phonon coupling, Physics, QC1-999

Abstract

Strong and long-range coupling of the magnetization dynamics of the two antiferromagnetic layers mediated by the phonons transferred through a nonmagnetic insulator has been investigated. The magnetization dynamics in one of the antiferromagnetic layers via a magnetoelastic interaction leads to the excitation of phonons and their pumping to the nonmagnetic layer. The transfer of phonons, which carry angular momentum, through a nonmagnetic insulator from one antiferromagnetic layer to another, leads to an interference pattern in the absorption spectrum, which represents the coupling of magnetization dynamics of two layers.

Published

2023

4. All Acoustical Excitation of Spin Waves in High Overtone Bulk Acoustic Resonator

Author

Sergey Alekseev, Natalia Polzikova, and Valery Luzanov

Subjects

magnetoelastic interaction, spin waves, bulk acoustic waves, resonator, YIG, ZnO, Physics, QC1-999

Abstract

The hybrid high overtone bulk acoustic wave resonators (HBARs) consisting of a piezoelectric film transducers and gallium gadolinium garnet substrates with yttrium iron garnet films (YIG-GGG-YIG) are used for experimental excitation and detection of acoustically driven spin waves (ADSWs). Two types of HBAR transducers made of Al-ZnO-Al films (differed through the electrodes’ geometry) were deposited onto YIG-GGG-YIG trilayers with different YIG film thicknesses and doping levels and served for excitation of multimode HBAR at gigahertz frequencies. ADSWs were detected by measuring the shifts of resonant HBAR modes in a tangential external magnetic field when the conditions for magnetoelastic resonance (MER) were satisfied. It was shown that the design of the transducer with a continuous bottom electrode provides all acoustical excitation of spin waves (pure ADSWs), suppressing the additional inductive magnetic dynamics excitation due to the electrodes’ geometry. The theoretical study of the HBAR spectrum in a magnetic field showed that the resonance harmonics in the MER region can either almost continuously transfer from one to another, or decay and form an evident magnetoelastic gap. In this case, the shift of resonant frequencies can achieve several intermodal distances. The results obtained are important for applications of HBAR-based devices in spintronics and magnonics.

Published

2023

5. VCo

Author

Kawazoe, Yoshiyuki, Note, Ryunosuke, Kawazoe, Yoshiyuki, and Note, Ryunosuke

Published

2022

6. Spin Accumulation in Acoustically Excited Ni/GaAs/Ni Trilayers.

Author

Azovtsev, Andrei V. and Pertsev, Nikolay A.

Abstract

In this paper, we report the first theoretical results on the acoustic generation of spin accumulation in ferromagnet-semiconductor-ferromagnet trilayers. As a representative material system, we consider a Ni/GaAs/Ni trilayer coupled to a piezoelectric transducer, which injects a planar acoustic wave into the adjoining Ni film. By combining an analytical solution of the spin diffusion equation in the GaAs spacer with results of numerical simulations of the coupled elastic and magnetic dynamics in the Ni films, we quantify an oscillating inhomogeneous spin accumulation in GaAs. It is found that both dc and ac parts of the mean spin accumulation vary nonmonotonically with the spacer thickness t S , reaching maximal values at t S mostly close to 0.25 or 0.75 of the wavelength of the injected monochromatic acoustic wave. Remarkably, the transverse wave generates the spin accumulation much more efficiently than the longitudinal one. Our theoretical predictions provide guidelines for the development and optimization of energy-efficient acoustic spin injectors into semiconductors, which should have much lower power consumption than injectors driven by the microwave magnetic field. [ABSTRACT FROM AUTHOR]

Published

2023

7. All Acoustical Excitation of Spin Waves in High Overtone Bulk Acoustic Resonator.

Author

Alekseev, Sergey, Polzikova, Natalia, and Luzanov, Valery

Subjects

ACOUSTIC resonators, SPIN waves, SPINTRONICS, ELECTRODES, MAGNETIC fields

Abstract

The hybrid high overtone bulk acoustic wave resonators (HBARs) consisting of a piezoelectric film transducers and gallium gadolinium garnet substrates with yttrium iron garnet films (YIG-GGG-YIG) are used for experimental excitation and detection of acoustically driven spin waves (ADSWs). Two types of HBAR transducers made of Al-ZnO-Al films (differed through the electrodes' geometry) were deposited onto YIG-GGG-YIG trilayers with different YIG film thicknesses and doping levels and served for excitation of multimode HBAR at gigahertz frequencies. ADSWs were detected by measuring the shifts of resonant HBAR modes in a tangential external magnetic field when the conditions for magnetoelastic resonance (MER) were satisfied. It was shown that the design of the transducer with a continuous bottom electrode provides all acoustical excitation of spin waves (pure ADSWs), suppressing the additional inductive magnetic dynamics excitation due to the electrodes' geometry. The theoretical study of the HBAR spectrum in a magnetic field showed that the resonance harmonics in the MER region can either almost continuously transfer from one to another, or decay and form an evident magnetoelastic gap. In this case, the shift of resonant frequencies can achieve several intermodal distances. The results obtained are important for applications of HBAR-based devices in spintronics and magnonics. [ABSTRACT FROM AUTHOR]

Published

2023

8. Antiferromagnetic resonance in iron borate films: Dzyaloshinskii–Moriya field and isotropic energy gap.

Author

Seleznyova, K., Mogilenec, Yu., Prilepsky, D., Strugatsky, M., Yagupov, S., Drovosekov, A., Kreines, N., and Kliava, J.

Subjects

*BAND gaps, *IRON, *BORATES, *ELECTRON paramagnetic resonance, *RESONANCE

Abstract

Magnetic characteristics of iron borate, FeBO3, film on diamagnetic gallium borate substrate were determined from electron magnetic resonance studies in the microwave frequency range of 15–36 GHz and the temperature range of 4 K to room temperature. The temperature dependence of the Dzyaloshinskii–Moriya field in the film is in accordance with that previously determined for FeBO3 single crystals. In contrast, the isotropic energy gap in the film is several times larger than in the single crystal. This discrepancy has been related to deformations caused by the mismatch between the lattice parameters of the film and the substrate. [ABSTRACT FROM AUTHOR]

Published

2022

9. Large magnetoelectric effect in BaFe12O19-(Ba0.85Ca0.15)(Zr0.1Ti0.9)O3 particulate composite

Author

Sheng Liu, Pingping Gao, Hongxiang Zou, Bo Qin, Jun He, and Lianwen Deng

Subjects

Magnetoelectric effect, Particulate composite, Hexaferrite BaFe12O19, Magnetoelastic interaction, Mining engineering. Metallurgy, TN1-997

Abstract

Multiferroic composites with a large magnetoelectric response are gaining attractive interests for the design of magnetoelectric (ME) functional devices. In this work, the particulate ME composites (Ba0.85Ca0.15)(Zr0.1Ti0.9)O3–xBaFe12O19 (x=0, 0.1, 0.2, 0.3, 0.4 and 1) were prepared, and their structural, dielectric, magnetic, ferroelectric, piezoelectric properties and magnetoelectric coupling were systematically investigated. The composites consisted of only two chemically separated phases with well-bonded interface. Dielectric and impedance analyses indicated the co-contribution of grain and grain boundary to polarization. Well-saturated ferroelectric and magnetic hysteresis loops demonstrated multiferroic nature. ME response was investigated elaborately by employing magnetically induced polarization, together with measuring ME voltage coefficient and magnetodielectric value. Specifically, a large ME coefficient of 26.78 ​mV/cm·Oe was achieved for x=0.3, which is higher than that in single-phase BaFe12O19 and its coupled composites.

Published

2022

10. All Acoustical Excitation of Spin Waves in High Overtone Bulk Acoustic Resonator

Author

Valery Luzanov, Natalia Polzikova, and Sergey Alekseev

Subjects

magnetoelastic interaction, ZnO, HBAR, resonator, General Medicine, YIG, spin waves, bulk acoustic waves

Abstract

The hybrid high overtone bulk acoustic wave resonators (HBARs) consisting of a piezoelectric film transducers and gallium gadolinium garnet substrates with yttrium iron garnet films (YIG-GGG-YIG) are used for experimental excitation and detection of acoustically driven spin waves (ADSWs). Two types of HBAR transducers made of Al-ZnO-Al films (differed through the electrodes’ geometry) were deposited onto YIG-GGG-YIG trilayers with different YIG film thicknesses and doping levels and served for excitation of multimode HBAR at gigahertz frequencies. ADSWs were detected by measuring the shifts of resonant HBAR modes in a tangential external magnetic field when the conditions for magnetoelastic resonance (MER) were satisfied. It was shown that the design of the transducer with a continuous bottom electrode provides all acoustical excitation of spin waves (pure ADSWs), suppressing the additional inductive magnetic dynamics excitation due to the electrodes’ geometry. The theoretical study of the HBAR spectrum in a magnetic field showed that the resonance harmonics in the MER region can either almost continuously transfer from one to another, or decay and form an evident magnetoelastic gap. In this case, the shift of resonant frequencies can achieve several intermodal distances. The results obtained are important for applications of HBAR-based devices in spintronics and magnonics.

Published

2023

11. Magnetically Bistable Microwires: Properties and Applications for Magnetic Field, Temperature, and Stress Sensing

Author

Varga, Rastislav, Klein, Peter, Sabol, Rudolf, Richter, Kornel, Hudak, Radovan, Polaček, Irenej, Praslicka, Dušan, Šmelko, Miroslav, Hudak, Jozef, Mikita, Ivan, Badini-Confalonieri, Giovanni Andrea, El Kammouni, Rhimou, Vazquez, Manuel, Hull, Robert, Series editor, Jagadish, Chennupati, Series editor, Kawazoe, Yoshiyuki, Series editor, Osgood, Richard M., Series editor, Parisi, Jürgen, Series editor, Seong, Tae-Yeon, Series editor, Uchida, Shin-ichi, Series editor, Wang, Zhiming M., Series editor, and Zhukov, Arcady, editor

Published

2017

12. Symmetry invariants of higher orders in magnetoelastic energy for a trigonal easy-plane antiferromagnet.

Author

Prilepsky, D., Skibinsky, K., Seleznyova, K., and Strugatsky, M.

Subjects

*BORATE crystals, *ANTIFERROMAGNETIC materials, *SYMMETRY, *THERMODYNAMIC potentials, *IRON, *MAGNETS

Abstract

• Symmetry analysis of magnetoelastic energy of trigonal magnets is carried out. • Higher orders invariants in magnetoelastic energy of trigonal magnets are constructed. • The possibilities for interpreting the effects in trigonal magnets are expanded. In expansion of the thermodynamic potential for a trigonal easy-plane antiferromagnet such as iron borate, FeBO 3 , magnetoelastic invariants of a higher order in the components of the deformation tensor and the antiferromagnetic vector with respect to those traditionally used were taken into account. Such invariants make it possible to describe new effects observed in iron borate crystals and composites based on them. [ABSTRACT FROM AUTHOR]

Published

2024

13. Introduction

Author

Dorfmann, Luis, Ogden, Ray W., Dorfmann, Luis, and Ogden, Ray W.

Published

2014

14. Acoustic excitation and electrical detection of spin waves and spin currents in hypersonic bulk waves resonator with YIG/Pt system.

Author

Polzikova, N.I., Alekseev, S.G., Luzanov, V.A., and Raevskiy, A.O.

Subjects

*SPIN waves, *MAGNETOELASTIC effects, *BULK acoustic waves, *YTTRIUM iron garnet, *MAGNETISM, *MAGNETIC materials

Abstract

Highlights • Hypersonic composite resonator with ZnO-GGG-YIG/Pt layered structure. • The self-consisted theory for acoustically driven spin waves and spin currents. • Acoustic spin pumping in magnetoelastic/piezoelectric layered structures. • Detection of acoustically driven spin waves by means of inverse spin Hall effect. • Optimal YIG film thickness for spin pumping in spintronic acoustical resonator. Abstract We report on the self-consisted semi-analytical theory of magnetoelastic excitation and electrical detection of spin waves and spin currents in hypersonic bulk acoustic waves resonator with ZnO-GGG-YIG/Pt layered structure. Electrical detection of acoustically driven spin waves occurs due to spin pumping from YIG to Pt and inverse spin Hall (ISHE) effect in Pt as well as due to electrical response of ZnO piezotransducer. The frequency-field dependences of the resonator frequencies and ISHE voltage U ISHE are correlated with experimental ones observed previously. Their fitting allows to determine some magnetic and magnetoelastic parameters of YIG. The analysis of the YIG film thickness influence on U ISHE gives the possibility to find the optimal thickness for maximal U ISHE value. [ABSTRACT FROM AUTHOR]

Published

2019

15. Thermally Induced Magnetic Anisotropy in Nickel Films on Surface Acoustic Wave Devices.

Author

Mathews, Scott A., Bingham, Nicholas S., Suess, Ryan J., Charipar, Kristin M., Auyeung, Raymond C. Y., Heungsoo Kim, and Charipar, Nicholas A.

Subjects

*MAGNETIC anisotropy, *NICKEL, *THIN films, *SOUND waves, *MAGNETOMETERS

Abstract

The combination of magnetostrictive thin films with surface acoustic wave (SAW) devices enables the magnetic sensors that exploit the ΔE-effect (magnetically induced change in modulus) without the need for free-standing structures that are susceptible to vibration and damage. The performance of these sensors is strongly influenced by magnetic anisotropy and, therefore, the state of stress in the magnetostrictive film. We report the fabrication and characterization of magnetic SAW devices comprised of a magnetostrictive layer and interdigital transducers on a piezoelectric substrate. The state of stress in the magnetostrictive layer is varied by annealing. Vibrating-sample magnetometer measurements indicate that the annealed devices show a strong uniaxial anisotropy with the easy axis parallel to the direction of acoustic propagation. The induced magnetic anisotropy is attributed to the anisotropic thermal expansion in the substrate. The change in frequency of one-port resonators and two-port SAW oscillators is measured as a function of dc bias field and ambient temperature. The normalized change in frequency (Δf/fsat) is on the order of 10-4. These results demonstrate that the film stress can be used to optimize the performance of magnetic SAW devices and the SAW devices can be used to characterize the state of stress and magnetic anisotropy of magnetostrictive films. [ABSTRACT FROM AUTHOR]

Published

2019

16. Magnetic and magnetoelastic properties of LiYbF4 crystal in the strong magnetic field.

Author

Romanova, I.V., Abe, S., Andreev, G.Iu., Cherosov, M.A., Gilmutdinov, I.F., Kiiamov, A.G., Korableva, S.L., Matsumoto, K., Nuzhina, D.S., Morozov, O.A., Semakin, A.S., Ubukata, K., and Tagirov, M.S.

Subjects

*MAGNETIC crystals, *MAGNETIC properties, *MAGNETIC fields, *SINGLE crystals, *MAGNETOSTRICTION

Abstract

This work presents the results of experimental and theoretical studies of the magnetic properties of the LiYb F 4 single crystal and powder samples, and magnetoelastic properties of the LiYb F 4 single crystal samples, at low temperature and applied field range of 0-9 T. The magnetostriction experimental data for the single crystal of LiYb F 4 is published for the first time. The magnetization and magnetostriction were calculated in the framework of the exchange-charge model taking into account dipole–dipole and electron-deformation interactions, with the calculation of the electron-deformation parameters. The theoretical analysis presents quantitative agreement in the temperature range of 2–10 K with the magnetization and magnetostriction measurements of the LiYb F 4 samples. • Experimental magnetostriction data shows high anisotropy of the magnetoelastic properties. • Exchange-charge model describes magnetic properties of LiYb F 4 crystals at 2 < T < 300 K. • Magnetic properties of LiYb F 4 single crystal have four-fold symmetry. • Set of electron-deformation parameters for LiYb F 4 was calculated. [ABSTRACT FROM AUTHOR]

Published

2023

17. Manifestation of magnetoelastic interactions in Raman spectra of HoxNd1−xFe3(BO3)4 crystals

Author

A. S. Krylov, S. N. Sofronova, I. A. Gudim, S. N. Krylova, Rajesh Kumar, and A. N. Vtyurin

Subjects

Multiferroic, magnetoelastic interaction, Raman spectra, phase transition, magnetic ordering, Electricity, QC501-721

Abstract

Raman spectra of Ho1−xNdxFe(BO3)4 (x=1, 0.75, 0.5, 0.25) have been studied in temperature range 10–400K. Two compositions (x=1, x=0.75) demonstrate structural phase transition with soft mode restoration. The addition of Nd atoms increases interatomic spacing and decreases the temperature of structural phase transition. The solid solutions (x=0.75, 0.5, 0.25) demonstrate the emergence of the peaks corresponding to magnetoelastic interaction below Néel temperature. The order parameter of the magnetic phase transition has been determined. The equal concentrations of holmium and neodymium atoms prevent magnon soft modes condensation caused by exchange interactions in Fe–O–Fe chains are observed. Calculations confirm the data obtained in the experiment.

Published

2018

18. The Interaction between Surface Acoustic Waves and Spin Waves: The Role of Anisotropy and Spatial Profiles of the Modes

Author

Sławomir Mielcarek, Jarosław W. Kłos, Grzegorz Centała, Szymon Mieszczak, Milosz Zdunek, Nandan K. P. Babu, Hubert Głowiński, A. Trzaskowska, and Piotr Graczyk

Subjects

Letter, Phonon, Bioengineering, 02 engineering and technology, spin waves, Brillouin light scattering, Condensed Matter::Materials Science, Spin wave, General Materials Science, Anisotropy, Physics, Condensed matter physics, Mechanical Engineering, Magnon, General Chemistry, Acoustic wave, surface acoustic waves, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Magnetic field, Brillouin zone, Wavelength, thin films, finite-element method, magnetoelastic interaction, Condensed Matter::Strongly Correlated Electrons, 0210 nano-technology

Abstract

The interaction between different types of wave excitation in hybrid systems is usually anisotropic. Magnetoelastic coupling between surface acoustic waves and spin waves strongly depends on the direction of the external magnetic field. However, in the present study we observe that even if the orientation of the field is supportive for the coupling, the magnetoelastic interaction can be significantly reduced for surface acoustic waves with a particular profile in the direction normal to the surface at distances much smaller than the wavelength. We use Brillouin light scattering for the investigation of thermally excited phonons and magnons in a magnetostrictive CoFeB/Au multilayer deposited on a Si substrate. The experimental data are interpreted on the basis of a linearized model of interaction between surface acoustic waves and spin waves.

Published

2020

19. Magnetovolume Effect and Longitudinal Spin Fluctuations in Invar Alloys

Author

Menshikov, A. Z., Kazantsev, V. A., Valiev, E. Z., Podgornykh, S. M., Wagner, D., editor, Brauneck, W., editor, and Solontsov, A., editor

Published

1998

20. Magnetoelastic Interactions

Author

Kinderlehrer, David, Brezis, Haim, editor, Serapioni, Raul, editor, and Tomarelli, Franco, editor

Published

1996

21. Magnetoelastic interaction and dynamics of domain walls

Author

Bar'yakhtar, Victor G., Chetkin, Mikhail V., Ivanov, Boris A., Gadetskii, Sergei N., Bar'yakhtar, Victor G., editor, Chetkin, Mikhail V., editor, Ivanov, Boris A., editor, and Gadetskii, Sergei N., editor

Published

1994

22. Evidence in Favor of a Nematic Ordering in La2CuO4+δ

Author

Gor’kov, L. P., Maekawa, Sadamichi, editor, and Sato, Masatoshi, editor

Published

1992

23. Ultrasonic elastic responses in a monopole lattice

Author

Xiao-Xiao Zhang and Naoto Nagaosa

Subjects

ultrasonic response, magnetoelastic interaction, topological phase transition, skyrmion/monopole lattice, Science, Physics, QC1-999

Abstract

The latest experimental advances have extended the scenario of coupling mechanical degrees of freedom in chiral magnets (MnSi/MnGe) to the topologically nontrivial skyrmion crystal and even monopole lattices. Equipped with a spin-wave theory highlighting the topological features, we devise an interacting model for acoustic phonons and magnons to explain the experimental findings in a monopole lattice with a topological phase transition, i.e. annihilation of monopole–antimonopole pairs. We reproduce the anisotropic magnetoelastic modulations of elastic moduli: drastic ultrasonic softening around the phase transition and a multi-peak-and-trench fine structure for sound waves parallel and orthogonal to the magnetic field, respectively. Comparison with experiments indicates that the magnetoelastic coupling induced by Dzyaloshinskii–Moriya interaction is comparable to that induced by the exchange interaction. Other possibilities such as elastic hardening are also predicted. The study implies that the monopole defects and their motion in MnGe play a crucial role.

Published

2017

24. Effect of magnetoelastic interaction on the thermal expansion of the trigonal crystal FeBO3.

Author

Seleznyova, K., Smirnova, E., Strugatsky, M., Snegirev, N., Yagupov, S., Mogilenec, Yu., Maksimova, E., Alekseeva, O., and Lyubutin, I.

Subjects

*THERMAL expansion, *MAGNETOELASTIC effects, *MAGNETIC crystals, *TRANSITION temperature, *CRYSTAL symmetry

Abstract

• Consistent approach to the interpretation of thermal expansion in magnetic crystals is developed. • FeBO 3 – a trigonal antiferromagnet with weak ferromagnetism – is used as a model object. • Different character of the thermal expansion above and below the magnetic ordering temperature is described taking into account magnetostrictive deformations. • A model based on the symmetry of the crystal and its domain structure is put forward. • The temperature dependences of magnetoelastic constants over a wide temperature range and the hitherto unknown constants are determined. Iron borate FeBO 3 – a trigonal antiferromagnet with weak ferromagnetism – was used as a model object for experimental and theoretical studies of thermal expansion. X-ray diffraction analysis indicated that the character of the thermal expansion changes significantly when passing through the Néel point. In the magnetically ordered state below the phase transition temperature, the thermal changes in the crystal lattice parameters are additionally affected by magnetostrictive deformations. A theoretical model was developed that allows interpreting experimental data and determining the magnetoelastic constants using X-ray diffraction analysis. Temperature dependences of some of the magnetoelastic constants of iron borate were determined, and the hitherto unknown constants were found. These data are essential to describe various phenomena associated with magnetoelastic interactions in magnetically ordered materials. [ABSTRACT FROM AUTHOR]

Published

2022

25. Temperature stability of Δ E-effect in amorphous Fe-based metal wires treated by direct current.

Author

Gavrilyuk, A., Golygin, E., Semyonov, A., Agrafonov, Yu., Morozova, N., Gafarov, A., and Mokhovikov, A.

Abstract

The heating temperature effect on field dependences of the Δ E-effect of amorphous wires of FeSiB treated by direct current with the simultaneous application of tensile stresses are investigated. Concepts of the effect of the magnetoelastic interaction of the core and the near-surface regions of wires on temperature variations of field dependences of the Δ E-effect are developed. [ABSTRACT FROM AUTHOR]

Published

2015

26. Three-Phonon Parametrically Coupled Excitations in Solid.

Author

Preobrazhensky, V. L., Matar, O. Bou, Pernod, P., and Rudenko, V. V.

Subjects

*NONLINEAR acoustics, *PHONONS, *LATTICE dynamics, *QUASIPARTICLES, *SOLID state physics

Abstract

A new mechanism of parametric excitation of acoustic waves in solids is studied. The phenomenon of three-phonon coupling is considered on an example of high-temperature “easy plane” antiferromagnet (EPAF) in a transverse electromagnetic pumping field [1]. Theoretical analysis shows that space-time development of three-phonon excitation in the supercritical mode has character of explosive instability and localization. [ABSTRACT FROM AUTHOR]

Published

2008

27. Effect of temperature on the Δ E effect in FeSiB amorphous metallic wires.

Author

Gavrilyuk, A., Semenov, A., Golygin, E., Gafarov, A., Zinchenko, A., Morozova, N., and Mokhovikov, A.

Abstract

The influence of temperature on the dependences of the Δ E effect of FeSiB metallic amorphous wires, which were subjected to thermomagnetic treatment at temperatures of from 370 to 470°C, on the magnetic field has been studied. It was shown that, at all temperatures of thermomagnetic treatment at relatively low heating temperatures, the negative Δ E effect is observed. The increase in the heating temperature of the wire during measurements of the Δ E effect at temperatures of 30-330°C leads to a decrease in both the magnitude of negative Δ E effect and the field of reaching the maximum Δ E effect magnitude. The dependence of the induced anisotropy field on the heating temperature of the wire has been determined. The obtained results are explained based on the concept of magnetoeleastic interactions between the core of wire and its near-surface area. [ABSTRACT FROM AUTHOR]

Published

2014

28. Influence of the mechanic boundary conditions on the dynamic and static properties of the ferromagnet with competing anisotropies.

Author

Krivtsova, A.V., Meleshko, A.G., Gorelikov, G.A., and Fridman, Yu.A.

Subjects

*BOUNDARY value problems, *FERROMAGNETIC materials, *MAGNETIC anisotropy, *MAGNETOELASTIC effects, *PHASE transitions

Abstract

Abstract: The phase transitions on the material constants in a semi-infinite ferromagnet with mechanic boundary conditions and competing “inclined” ease-axis anisotropy and easy-plane anisotropy have been investigated. The phase states and the spectra of coupled magnetoelastic waves have been researched. The analysis of the spectra of elementary excitations allowed the construction of the phase diagram of the system. [Copyright &y& Elsevier]

Published

2014

29. Local anisotropy induced by an external indenter in a magnetic film.

Author

Borisov, A. and Demina, E.

Abstract

The magnetic characteristics of a film under the effect of an external indenter have been studied. It has been shown that magnetoelastic interactions induce additional magnetic anisotropy, which can be either positive or negative, depending on the values of the magnetoelastic constants. The effect of the geometrical parameters of the problem on the magnetoelastic energy has been investigated. [ABSTRACT FROM AUTHOR]

Published

2014

30. Damping of Magnetoelastic Waves

Author

Bar’yakhtar, V. G. and Danilevich, A. G.

Subjects

Condensed Matter::Materials Science, dispersion law, uniaxial ferromagnet, дисипативна функцiя, закон дисперсiї, relaxation, магнiтопружна взаємодiя, magnetoelastic interaction, одноосний феромагнетик, dissipative function, релаксацiя

Abstract

A general method for constructing a model of the dissipative function describing the relaxation processes induced by the damping of coupled magnetoacoustic waves in magnetically ordered materials has been developed. The obtained model is based on the symmetry of the magnet and describes both exchange and relativistic interactions in the crystal. The model accounts for the contributions of both the magnetic and elastic subsystems to the dissipation, as well asthe relaxation associated with the magnetoelastic interaction. The dispersion law for coupled magnetoelastic waves is calculated in the case of a uniaxial ferromagnet of the “easy axis” type. It is shown that the contribution of the magnetoelastic interaction to dissipative processes can play a significant role in the case of magnetoacoustic resonance., Представлено загальний метод побудови моделi дисипативної функцiї, що описує релаксацiйнi процеси, зумовленi затуханням зв’язаних магнiтоакустичних хвиль у магнiто-впорядкованих матерiалах. Отримана модель дисипативної функцiї базується на врахуваннi симетрiї магнетика та описує як обмiнну, так i релятивiстичну взаємодiю в кристалi. При цьому враховано внески в дисипацiю як магнiтної i пружної пiдсистеми, так i релаксацiю, пов’язану з магнiтопружною взаємодiєю. Розраховано закон дисперсiї зв’язаних магнiтопружних хвиль для одноосного феромагнетика типу “легка вiсь”. Показано, що внесок магнiтопружної взаємодiї в дисипативнi процеси може вiдiгравати суттєву роль у випадку магнiтоакустичного резонансу.

Published

2020

31. Затухання магнітопружних хвиль

Author

A. G. Danilevich and V. G. Bar’yakhtar

Subjects

Condensed Matter::Materials Science, dispersion law, uniaxial ferromagnet, relaxation, 0103 physical sciences, magnetoelastic interaction, General Physics and Astronomy, 02 engineering and technology, 021001 nanoscience & nanotechnology, 010306 general physics, 0210 nano-technology, 01 natural sciences, dissipative function

Abstract

Представлено загальний метод побудови моделі дисипативної функції, що описує релаксаційні процеси, обумовлені затуханням зв'язаних магнітоакустичних хвиль у магнітовпорядкованих матеріалах. Отримана модель дисипативної функції базується на врахуванні симетрії магнетика та описує як обмінну, так і релятивістську взаємодію в кристалі. При цьому враховано вклади в дисипацію як магнітної і пружної підсистеми, так і релаксацію повязану з магнітопружною взаємодією. Розраховано закон дисперсії зв'язаних магнітопружних хвиль для одноосного феромагнетика типу "легка вісь". Показано, що вклад магнітопружної взаємодії в дисипативні процеси може відігравати суттєву роль у випадку магнітоакустичного резонансу. The general method for constructing a model of the dissipative function is presented, which describes the relaxation processes caused by the damping of bound magnetoacoustic waves in magnetically ordered materials. The obtained model of the dissipative function is based on the symmetry of the magnet and describes both exchange and relativistic interactions in the crystal. The model takes into account the contributions to the dissipation of both the magnetic and elastic subsystems, and the relaxation associated with the magnetoelastic interaction. The dispersion law of coupled magnetoelastic waves for an uniaxial ferromagnet of the "light axis" type is calculated. It is shown that the contribution of magnetoelastic interaction to dissipative processes can play a significant role in the case of magnetoacoustic resonance. Представлен общий метод построения модели диссипативной функции, которая описывает релаксационные процессы, обусловленные затуханием связанных магнитоакустические волн в магнитоупорядоченных материалах. Полученная модель диссипативной функции базируется на учете симметрии магнетика и описывает как обменное, так и релятивистское взаимодействие в кристалле. При этом учтены вклады в диссипацию как магнитной и упругой подсистемы, так и релаксация связанная с магнитоупругим взаимодействием. Рассчитан закон дисперсии связанных магнитоупругих волн для одноосного ферромагнетика типа "легкая ось". Показано, что вклад магнитоупругого взаимодействия в диссипативные процессы могут играть существенную роль в случае магнитоакустического резонанса.

Published

2020

32. Strong influence of ferromagnetic ordering and internal pressure on the elastic modulus of shape memory alloy

Author

Danilevich, A.G. and L’vov, V.A.

Subjects

*FERROMAGNETIC materials, *PRESSURE, *ELASTICITY, *SHAPE memory alloys, *CRYSTAL lattices, *CURIE temperature, *MARTENSITIC transformations

Abstract

Abstract: In the present article two effects, which were observed previously in the ferromagnetic shape memory alloys, are explained using the concept of internal pressure influencing the crystal lattice. The first effect is the noticeable change of the temperature dependence of Young''s modulus at the Curie point and the second one is the quasi-second-order martensitic transformation of the alloy. It has been shown that the larger the volume change, which accompanies the martensitic transformation of the alloy, the more pronounced the influence of internal pressure on the second- and third-order elastic modulus of the alloy. If the volume change is larger than or equal to 0.5%, the magnetoelastic pressure in the Ni–Mn–Ga alloy is large enough to induce the experimentally observed change of the temperature dependence of Young''s modulus at the Curie point. The internal pressure created by the structural defects of the alloy has been considered. It has been shown that in the case where the internal pressure destabilizes the martensitic phase, the martensitic transformation becomes similar to a second-order phase transition. [Copyright &y& Elsevier]

Published

2013

33. Observation of reversible three-step solid-to-solid phase transitions in a nickel-bis-1,2-dithiolene magnetic molecule solid

Author

Yu, Shan-Shan, Duan, Hai-Bao, Pei, Wen-Bo, Chen, Xuan-Rong, Ren, Xiao-Ming, and Tian, Zheng-Fang

Subjects

*DITHIOLENES, *PHASE transitions, *NICKEL compounds synthesis, *CRYSTAL structure, *THERMAL analysis, *SPACE groups

Abstract

Abstract: An ion-pair compound 1,6-bis(1-methylimidazolium)hexane bis(maleonitrio-dithiolato)nickelate was synthesized and structurally characterized. This compound crystallizes in the triclinic space group P-1, and the anions form the alternating stacks in the crystal. Reversible three-step solid-to-solid phase transitions occur at ~210, ~320 and ~432K upon cooling. The entropy change of phase transition was estimated to be 25.4J⋅K−1⋅mol−1 and 9.97J⋅K−1⋅mol−1 for the transitions at ~320 and ~432K, respectively. The hysteresis effect was observed in the χm–T plot for the transitions at ~210 and ~320K. The mechanisms of transitions are discussed based on the crystal structure and thermal analyses. [Copyright &y& Elsevier]

Published

2012

34. Influence of magnetic dipole and magnetoelastic interactions on the phase states of 2D non-Heisenberg ferromagnetic with complex exchange interactions

Author

Fridman, Yu.A., Matunin, D.A., Klevets, Ph.N., and Kosmachev, O.A.

Subjects

*MAGNETIC dipoles, *MAGNETOSTRICTION, *FERROMAGNETISM, *ANISOTROPY, *QUANTUM theory, *PHASE transitions, *TEMPERATURE effect

Abstract

Abstract: The phase states of the 2D non-Heisenberg ferromagnetic with anisotropic bilinear and biquadratic exchange interactions are investigated. The limiting cases of the system under consideration are the two-dimensional XY-model with biquadratic exchange interaction and the isotropic Heisenberg ferromagnetic. The account of the magnetic dipole interaction leads to the realization of spatially inhomogeneous quadrupolar phase. The stability regions of various phase transitions for different values of the material parameters are studied. The phase diagram is built. Besides, the temperature phase transitions are investigated. The influence of the magnetoelastic interaction on the formation of the long-range quadrupolar order is determined. [Copyright &y& Elsevier]

Published

2009

35. Parametric amplification of ultrasound in ferromagnetic piezoelectric composites at the vicinity of the orientational phase transition

Author

Sirota, David I. and Gridin, Vladimir V.

Subjects

*PARAMETRIC amplifiers, *FERROMAGNETIC materials, *PIEZOELECTRIC materials, *COMPOSITE materials, *PHASE transitions, *LAYER structure (Solids), *BULK solids, *SYSTEM analysis

Abstract

Abstract: Direct parametrical amplification of ultrasound was theoretically considered for the ferromagnetic/piezoelectric thin-layered structure composites, for which within the long-wavelength approach some, material specific, yet homogeneous bulk properties could be assumed. Having chosen appropriate homogeneous components, it is possible to construct a desirable composite with such properties that are absent in the starting-up “building blocks” (components). Sound frequencies are assumed to be such that only the dispersion due to magnetic subsystem is thought relevant; the piezoelectric components are set to have a nonlinear dielectric response. Presence of orientational phase transition for the ferromagnetic subsystem allows to vary frequency of a ferromagnetic resonance, and consequently to alter the dispersion at the chosen frequency of sound. While solving coupled equations describing dynamics of mechanical, magnetic and piezoelectric subsystems, an effective sound amplification for realistic values of physical parameters is shown possible. [Copyright &y& Elsevier]

Published

2009

36. Phase diagram of Fe1− x Co x ultrathin film

Author

Fridman, Yu.A., Klevets, Ph.N., and Voytenko, A.P.

Subjects

*THIN films, *MAGNETIC films, *MAGNETOSTRICTION, *ANISOTROPY

Abstract

Abstract: Concentration-driven reorientation phase transitions in ultrathin magnetic films of FeCo alloy have been studied. It is established that, in addition to the easy-axis and easy-plane phases, a spatially inhomogeneous phase (domain structure), a canted phase, and also an “in-plane easy-axis” phase can exist in the system. The realization of the last phase is associated with the competition between the single-ion anisotropy and the magnetoelastic interaction. The critical values of Co concentration corresponding to the phase transitions are evaluated, the types of phase transitions are determined, and the phase diagrams are constructed. [Copyright &y& Elsevier]

Published

2008

37. Changes in the natural frequency of a ferromagnetic rod in a magnetic field due to magnetoelastic interaction.

Author

Xing-zhe Wang

Subjects

*MAGNETOSTRICTION, *FERROMAGNETISM, *GALERKIN methods, *DISPLACEMENT (Ships), *QUANTUM perturbations

Abstract

Based on the magnetoelastic generalized variational principle and Hamilton’s principle, a dynamic theoretical model characterizing the magnetoelastic interaction of a soft ferromagnetic medium in an applied magnetic field is developed in this paper. From the variational manipulation of magnetic scale potential and elastic displacement, all the fundamental equations for the magnetic field and mechanical deformation, as well as the magnetic body force and magnetic traction for describing magnetoelastic interaction are derived. The theoretical model is applied to a ferromagnetic rod vibrating in an applied magnetic field using a perturbation technique and the Galerkin method. The results show that the magnetic field will change the natural frequencies of the ferromagnetic rod by causing a decrease with the bending motion along the applied magnetic field where the magnetoelastic buckling will take place, and by causing an increase when the bending motion of the rod is perpendicular to the field. The prediction by the mode presented in this paper qualitatively agrees with the natural frequency changes of the ferromagnetic rod observed in the experiment. [ABSTRACT FROM AUTHOR]

Published

2008

38. Dynamic stability of ferromagnetic plate under transverse magnetic field and in-plane periodic compression

Author

Wang, Xingzhe and Seh Lee, Jong

Subjects

*MAGNETIC fields, *FERROMAGNETIC materials, *STRAINS & stresses (Mechanics), *VIBRATION (Mechanics)

Abstract

Abstract: The dynamic stability of a soft ferromagnetic rectangular and simply supported plate immersed in an applied transverse magnetic field, as well as subjected to an in-plane periodic compression is presented in this paper. The fundamental equations involving magnetoelastic interaction and magnetic damping effect for the ferromagnetic plate are developed. In the theoretical model, the expression of induced magnetic force is based on a generalized magnetoelastic variational model, and the magnetic damping is due to the Lorentz body force arising from eddy current in the ferromagnetic material. By means of a linearized magnetoelastic theory and perturbation technique, the motion equation of the ferromagnetic plate is reduced to a damped Mathieu''s equation and solved. The dynamic stability of the magnetoelastic system without in-plane compression is theoretically analyzed first, to show that there exist two stable states: magnetic damped stable oscillation, and over-damped asymptotically stable motion before static divergence instability of the ferromagnetic plate occurs. The dynamic instability and stability regions for the parametric excitation of the ferromagnetic plate due to the harmonically excited in-plane compression are obtained next. The effects of magnetic damping and excitation frequency of the in-plane periodic compression on the stability regions are discussed in detail. [Copyright &y& Elsevier]

Published

2006

39. The effect of magnetoelastic interaction on the GMI behaviour of Fe-, Co- and Co–Fe-based amorphous wires

Author

Pal, S.K., Panda, A.K., Vazquez, M., and Mitra, A.

Subjects

*WIRE, *COPPER wire, *MAGNETOSTRICTION, *MAGNETIC fields

Abstract

Abstract: The giant magnetoimpedance is the sensitive change in ac impedance value with the application of dc magnetic field when ac current passes through the sample. In the present work GMI properties of positive (Fe77.5Si7.5B15), negative (Co72.5Si12.5B15) and nearly zero ((Co94Fe6)72.5Si12.5B15) magnetostrictive amorphous wires have been studied. The result indicates that the magnetostriction constant plays an important role in GMI property. The maximum GMI ratio (330%) and maximum field sensitivity (7% per A/m) are observed in (Co94Fe6)72.5Si12.5B15 amorphous wire. The frequency response of the GMI characteristics of the above alloys has been measured and zero magnetostrictive (Co94Fe6)72.5Si12.5B15 material showed better frequency response. [Copyright &y& Elsevier]

Published

2006

40. Magnetostrictive twisting of film–substrate plates

Author

Guerrero, Victor H. and Wetherhold, Robert C.

Subjects

*MAGNETOSTRICTIVE transducers, *MAGNETISM, *MAGNETOSTRICTION, *THIN films

Abstract

In this paper we propose a method to calculate the torsional deformations induced in film–substrate systems by magnetostrictive strains. The calculation scheme proposed assumes that the magnetostriction phenomenon can be modeled in terms of anisotropic expansional strains. These strains are incorporated into the classical plate theory to formulate an energy minimization problem, which is solved using a Ritz method. To illustrate the method we use a cantilever plate in which the film and the substrate are mechanically isotropic and a saturating magnetic field is applied in a direction parallel to the plane of the plate. Our calculations show that the deformation induced by an in-plane field generally includes twisting as well as bending deflection. The cases in which only one of these deflections is present are discussed. One of the advantages of the method proposed is that it can be used regardless of the relative thickness of the substrate with respect to that of the film. It also allows us to consider cases in which a film–substrate system deforms due to piezoelectric, thermal or hygroscopic expansional strains. [Copyright &y& Elsevier]

Published

2004

41. A magnetoelastic theoretical model for soft ferromagnetic shell in magnetic field

Author

Zheng, Xiaojing and Wang, Xingzhe

Subjects

*MAGNETOSTRICTION, *NUMERICAL analysis, *MAGNETIC fields, *FERROMAGNETISM

Abstract

With the aid of a generalized variational method, in this paper, a theoretical model for soft ferromagnetic shells is derived to describe their magnetoelastic behavior in an applied magnetic field. Having made a quantitative comparison between the numerical predictions given by several theoretical models and the experimental results on strains of a cylindrical shell, we find that the predictions got by our model are in good agreement with the experimental data. It is also found that the Moon’s model is a special case of the model derived in this paper when the relative magnetic permeability μr>104, which confirms that it is reasonable for the Moon’s model to calculate strains of the soft ferromagnetic shells. Having displayed the distribution of the equivalent magnetic force in the length of the cylindrical shell and its circumferential bending strains with different elastic end constraints, we give an explanation for the discrepancy between Moon’s analytical results and his experimental ones. [Copyright &y& Elsevier]

Published

2003

42. Influence of magnetoelastic coupling on the phase transitions in two-dimensional non-Heisenberg magnetics with biquadratic interaction

Author

Fridman, Yu.A., Klevets, Ph.N., and Kozhemyako, O.V.

Subjects

*PHASE transitions, *MAGNETIC materials, *FERROMAGNETIC materials

Abstract

Influence of magnetoelastic (ME) interaction on the phase transitions in two-dimensional non-Heisenberg ferromagnets is investigated. It is shown that if the constant of Heisenberg exchange interaction is large, the ferromagnetic phase is implemented in a system. When the value of biquadratic exchange interaction increases there is a phase transition to the quadrupolar phase characterized by the tensor order parameters. Thus, ME interaction plays an essential role, not only stabilizing the long-range magnetic order in the system, but also determining the order of the phase transition. [Copyright &y& Elsevier]

Published

2003

43. The 90° pulse switching in iron borate monocrystals

Author

Grishachev, V.V., Kolotov, O.S., Krasnojon, A.P., and Pogozhev, V.A.

Subjects

*BORATE crystals, *MAGNETOSTRICTION

Abstract

The magnetoelastic interaction effect on the process of the 90° pulses switching in iron borate monocrystals is investigated. A simple comparing of the magnetization switching rate and the intensity of the magnetoelastic oscillations following the switching process shows that the break on the switching curve is accounted for by the sharp decreasing of the energy loss connected with the magnetoelastic oscillations. In its turn these decreasing of the energy loss is due to the lag of the elastic subsystem of the crystal from the magnetic one at the switching time τ&les;τ*&ap;15±2 ns. The value of τ* is practically independent on both the monocrystal thickness and the reversal process mode. [Copyright &y& Elsevier]

Published

2002

44. Interaction of Elastic and Spin Waves in a Uniaxial Ferromagnet

Author

Danilevich, A. G.

Subjects

Condensed Matter::Materials Science, dispersion law, uniaxial ferromagnet, закон дисперсiї, пружний модуль, магнiтопружна взаємодiя, magnetoelastic interaction, elastic modulus, одноосний феромагнетик, Condensed Matter::Strongly Correlated Electrons

Abstract

The dispersion laws of coupled magnetoelastic waves have been calculated for all ground states in a uniaxial ferromagnet. The magnetoelastic interaction is shown to take place not for all sound modes in those ground states. The obtained dispersion laws testify that the magnetoelastic interaction coefficient depends on both the magnetization direction and the wave vector direction. It is demonstrated that the magnetoelastic interaction between sound and spin waves in the uniaxial ferromagnet is characterized by the constants B44 and B66, whereas the other magnetoelastic constants govern only the formation of a magnetoelastic gap in the spectrum of coupled waves., Розраховано закони дисперсiї зв’язаних магнiтопружних хвиль для основних станiв “легка вiсь” та “легка площина” феромагнетика одноосної симетрiї. Показано, що в даних основних станах не всi звуковi моди взаємодiють iз спiновим хвилями. Отриманi закони дисперсiї показують, що коефiцiєнт магнiтопружної взаємодiї залежить як вiд напрямку магнiтного моменту феромагнетика, так i вiд напрямку хвильового вектора пружних коливань. Показано, що магнiтопружна взаємодiя мiж звуковими та спiновими хвилями в одноосному феромагнетику характеризується виключно константами B44 та B66, iншi магнiтопружнi константи вiдповiдають тiльки за формування магнiтопружної щiлини у спектрi зв’язаних коливань.

Published

2019

45. Plane Sources of Waves in the Presence of Magnetic Field.

Author

STEFANIAK, JAROSŁAW

Abstract

In this paper the generation of harmonic waves in an elastic magneticmaterial, which is a perfect conductor of electricity, isconsidered. It has been assumed that an infinite body is subjected tothe action of an initially constant magnetic fieldH = (H,0,0) and in the plane ax+by=0 acts a source ofdistortion. It has been shown that this source may produce bothtransverse and longitudinal waves and each of them consists of two parts,which propagate with different speeds. The amplitudes and speeds in dependence on theangle between the direction of wave propagation and the magnetic fieldintensity H have been discussed. [ABSTRACT FROM AUTHOR]

Published

1997

46. The Influence of Magnetoelastic Interaction on the First Transverse Sound in a Ferromagnet of Cubic Symmetry in a Vicinity of the Martensitic Transformation

Author

Danilevich, A. G.

Subjects

Condensed Matter::Materials Science, dispersion law, shape memory alloy, закон дисперсiї, кубiчний феромагнетик, пружний модуль, магнiтопружна взаємодiя, magnetoelastic interaction, elastic modulus, Condensed Matter::Strongly Correlated Electrons, сплав з ефектом пам’ятi форми, cubic ferromagnet

Abstract

The dispersion laws of coupled magnetoelastic waves have been calculated for all ground states of a ferromagnet with the cubic symmetry. It is shown that the magnetoelastic interaction with the first transverse sound takes place for all equilibrium directions of the magnetization vector. The obtained dispersion laws testify that the magnetoelastic interaction coefficient depends on the magnetization and wave vector directions. The quantitative calculations of the dispersion relations for the shape memory alloy Ni–Mn–Ga are made on the basis of the obtained results. The results of research demonstrate that a decrease in the elastic modulus gives rise to an appreciably stronger magnetoelastic interaction., Розраховано закони дисперсiї зв’язаних магнiтопружних хвиль для всiх основних станiв феромагнетика кубiчної симетрiї. Показано, що магнiтопружня взаємодiя з першим поперечним звуком має мiсце для всiх рiвноважних напрямкiв магнiтного моменту. Отриманi закони дисперсiї показують, що коефiцiєнт магнiтопружної взаємодiї залежить як вiд напрямку магнiтного моменту феромагнетика, так i вiд напрямку хвильового вектора колективних коливань. На основi отриманих результатiв зроблено кiлькiснi розрахунки дисперсiйних залежностей для сплаву NiMnGa з ефектом пам’ятi форми. Отриманi розрахунки показують, що зменшення пружного модуля призводить до помiтного зростання магнiтопружної взаємодiї.

Published

2018

47. Magnetoelastic Waves in Ferromagnets in the Vicinity of Lattice Structural Phase Transitions

Author

Bar’yakhtar, V. G. and Danilevich, A. G.

Subjects

dispersion law, магнітопружна взаємодія, magnetoelastic interaction, закон дисперсії, ferromagnet, elastic modulus, пружні модулі, феромагнетик

Abstract

Розрахованi закони дисперсiї зв’язаних магнiтопружних хвиль для феромагнетикiв кубiчної та одновiсної симетрiї. Проведено аналiз особливостей отриманих законiв дисперсiї в околi спiн-переорiєнтацiйних фазових переходiв. Показано, що взаємодiя мiж звуковими та спiновими хвилями залежить вiд напрямку магнiтного моменту феромагнетика. Дослiджено вплив магнiтопружної взаємодiї на закон дисперсiї квазiспiнових хвиль у виродженому основному станi одновiсного феромагнетика “легка площина”. Розрахунки показують, що магнiтопружна взаємодiя знiмає виродження та приводить до появи магнiтоакустичної щiлини у спектрi. Проаналiзовано поведiнку спектрiв зв’язаних магнiтопружних хвиль в околi фазових переходiв в гратцi, а саме в околi мартенситних фазових перетворень в матерiалах з ефектом пам’ятi форми. Отриманi результати використанi для iнтерпретацiї експериментальних даних для сплаву Ni–Mn–Ga. Теоретично пояснене явище рiзкого зменшення пружних модулiв даного сплаву при наближеннi до мартенситних фазових переходiв. Показано, що при цьому основний вплив на пружнi характеристики матерiалу вiдiграєнеоднорiдна магнiтострикцiя. Побудована модель дисипативної функцiї, що описує релаксацiйнi процеси обумовленi затуханням зв’язаних магнiтопружних хвиль у феромагнетиках кубiчної та одновiсної симетрiї. Отримана модель дисипативної функцiї базується на врахуваннi симетрiї магнетика та описує як обмiнну, так i релятивiстську взаємодiю в кристалi., The dispersion laws for coupled magnetoelastic waves in ferromagnets with uniaxial or cubic symmetry have been calculated. The features of obtained dispersion laws in the vicinity of spin-reorientation phase transitions are analyzed. The interaction between elastic and spin waves is shown to depend on the direction of the ferromagnet magnetic moment. The influence of the magnetoelastic interaction on the dispersion law of quasispin waves in the degenerate ground state of a uniaxial “easy plane” ferromagnet is studied. The results of calculations show that the magnetoelastic interaction eliminates the degeneration and leads to the appearance of a magnetoacoustic gap in the ferromagnet spectrum. The behavior of the spectra of coupled magnetoelastic waves in the vicinity of lattice phase transitions, namely, in the vicinity of martensitic phase transformations in materials with the shape memory effect, is analyzed. The obtained results are used to interpret experimental data obtained for the Ni–Mn–Ga alloy. The phenomenon of a drastic decrease of the elastic moduli for this alloy, when approaching the martensitic phase transition point is explained theoretically. It is shown that the inhomogeneous magnetostriction is the main factor affecting the elastic characteristics of the material concerned. A model dissipative function describing the relaxation processes associated with a damping of coupled magnetoelastic waves in ferromagnets with cubic or uniaxial symmetry is developed. It takes the symmetry of a ferromagnet into account and describes both the exchange and relativistic interactions in the crystal.

Published

2018

48. Temperature stability of ΔE-effect in amorphous Fe-based metal wires treated by direct current

Author

Gavrilyuk, A. A., Golygin, E. A., Semyonov, A. L., Agrafonov, Yu. V., Morozova, N. V., Gafarov, A. R., Gavrilyuk, A. V., and Mokhovikov, A. Yu.

Published

2015

49. Nonlocal magnon-polaron transport in yttrium iron garnet

Author

Eiji Saitoh, Ludo J. Cornelissen, B. J. van Wees, Gerrit E. W. Bauer, Zhiyong Qiu, Timo Kuschel, Koichi Oyanagi, Takashi Kikkawa, Physics of Nanodevices, Theory of Condensed Matter, and Zernike Institute for Advanced Materials

Subjects

INSULATOR, Phonon, Physics::Medical Physics, WAVES, Yttrium iron garnet, FOS: Physical sciences, 02 engineering and technology, Polaron, 01 natural sciences, Condensed Matter::Materials Science, chemistry.chemical_compound, DEPENDENCE, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), 0103 physical sciences, Twist, 010306 general physics, Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Spintronics, Condensed matter physics, Magnon, 021001 nanoscience & nanotechnology, Magnetic field, ROOM-TEMPERATURE, chemistry, MAGNETOELASTIC INTERACTION, SPINTRONICS, Quasiparticle, SPIN TRANSPORT, Condensed Matter::Strongly Correlated Electrons, 0210 nano-technology

Abstract

The spin Seebeck effect (SSE) is observed in magnetic insulator|heavy metal bilayers as an inverse spin Hall effect voltage under a temperature gradient. The SSE can be detected nonlocally as well, viz. in terms of the voltage in a second metallic contact (detector) on the magnetic film, spatially separated from the first contact that is used to apply the temperature bias (injector). Magnon-polarons are hybridized lattice and spin waves in magnetic materials, generated by the magnetoelastic interaction. Kikkawa et al. [Phys. Rev. Lett. \textbf{117}, 207203 (2016)] interpreted a resonant enhancement of the local SSE in yttrium iron garnet (YIG) as a function of the magnetic field in terms of magnon-polaron formation. Here we report the observation of magnon-polarons in \emph{nonlocal} magnon spin injection/detection devices for various injector-detector spacings and sample temperatures. Unexpectedly, we find that the magnon-polaron resonances can suppress rather than enhance the nonlocal SSE. Using finite element modelling we explain our observations as a competition between the SSE and spin diffusion in YIG. These results give unprecedented insights into the magnon-phonon interaction in a key magnetic material., 5 pages, 6 figures

Published

2017

50. Effect of temperature on the ΔE effect in Fe75Si10B15 amorphous metallic wires

Author

Gavrilyuk, A. A., Semenov, A. L., Golygin, E. A., Gafarov, A. R., Zinchenko, A. A., Morozova, N. V., Gavrilyuk, A. V., and Mokhovikov, A. Yu.

Published

2014