Startseite Technik Thickness shear modes and magnetoelastic waves in a bi-layered structure: magnetic film–non-magnetic substrate
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Thickness shear modes and magnetoelastic waves in a bi-layered structure: magnetic film–non-magnetic substrate

  • Zukhra Gareeva und Rurik Doroshenko
Veröffentlicht/Copyright: 11. Juni 2013
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International Journal of Materials Research
Aus der Zeitschrift International Journal of Materials Research Band 100 Heft 9

Abstract

Thickness modes of magnetoelastic waves in a bi-layered structure magnetic–non-magnetic material have been theoretically investigated. Plots illustrating the dependence of harmonics of resonant frequencies upon the magnetic layer thickness were constructed at various magnetoelastic wave vectors. A dependence of the dimensional resonance frequencies on the wave number of magnetoelastic waves propagating along the saturating field direction is found. Peculiarities of the resonant frequency harmonics behavior with varying magnetic layer thickness and number are analyzed. The multimode character of the thickness magnetoelastic resonances, attributed to the possibility of excitation of magnetoelastic waves with different wave number is discussed.

Keywords: Magnetoelastic wave; Ferromagnetic material; Layered structure; Magnetostriction
* Correspondence address, Dr. Zukhra Gareeva, Prof. Rurik Doroshenko Institute of Molecular and Crystal Physics Prospect Octyabrya 151, 450075 Ufa, Russia Title/Name: Tel.: +7 3472 313 538 Fax: +7 3472 311 995 E-mail:

References

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Received: 2008-8-26
Accepted: 2009-2-9
Published Online: 2013-06-11
Published in Print: 2009-09-01

© 2009, Carl Hanser Verlag, München

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. History
  4. Pierre Auger – Lise Meitner: Comparative contributions to the Auger effect
  5. Surface and grain-boundary segregation studied by quantitative AES and XPS
  6. High temperature mechanical spectroscopy of fine-grained ceramics
  7. The effect of electro-thermal fatigue on the structure of power electronic devices. Micro-structural evolution of the metallization layer
  8. f-Element hydrides: structure and magnetism
  9. Basic
  10. Hydrogen as a probe into 5f-magnetism
  11. Magnetism in PrPdSn and NdPdSn studied on single crystals
  12. Magnetic properties of fcc Ni-based transition metal alloys
  13. X-ray characterization of magnetic digital alloys
  14. Are RENiAl hydrides metallic?
  15. HoZn5Al3: rare-earth magnetism in a new structure type
  16. The influence of substitutions on the magnetocaloric effect in RCo2 compounds
  17. Thickness shear modes and magnetoelastic waves in a bi-layered structure: magnetic film–non-magnetic substrate
  18. Electrochemical properties of fine-grained AZ31 magnesium alloy
  19. Severe plastic deformation in Gum Metal with composition at the structural stability limit
  20. Applied
  21. Structural, magnetic, and transport properties of quantum well GaAs/δ-Mn/GaAs/InxGa1–xAs/GaAs heterostructures
  22. Effect of co-doping by Pb and La on structural and magnetic properties of Bi2212 superconducting ceramics
  23. Magnetic properties of the hydrogenated unconventional superconductor UCoGe–H
  24. Electrophoresis deposition of metal nanoparticles with reverse micelles onto InP
  25. Electronic structure and electric field gradient calculations for the Zr2Ni intermetallic compound
  26. Solution growth of the Gd–Cu–Al systems in the low-gadolinium concentration range
  27. Low-temperature specific heat of selected ceramics
  28. Novel behaviors in rare-earth-filled skutterudites studied by bulk-sensitive photoemission spectroscopy
  29. Charge transport in photosensitive nanocrystalline PbTe(In) films in an alternating electric field
  30. Enrichment and depletion of alloying elements in surface layers of iron base alloys annealed under different conditions
  31. Notifications
  32. Personal
https://doi.org/10.3139/146.110175
Schlagwörter für diesen Artikel
Magnetoelastic wave; Ferromagnetic material; Layered structure; Magnetostriction

Artikel in diesem Heft

  1. Contents
  2. Contents
  3. History
  4. Pierre Auger – Lise Meitner: Comparative contributions to the Auger effect
  5. Surface and grain-boundary segregation studied by quantitative AES and XPS
  6. High temperature mechanical spectroscopy of fine-grained ceramics
  7. The effect of electro-thermal fatigue on the structure of power electronic devices. Micro-structural evolution of the metallization layer
  8. f-Element hydrides: structure and magnetism
  9. Basic
  10. Hydrogen as a probe into 5f-magnetism
  11. Magnetism in PrPdSn and NdPdSn studied on single crystals
  12. Magnetic properties of fcc Ni-based transition metal alloys
  13. X-ray characterization of magnetic digital alloys
  14. Are RENiAl hydrides metallic?
  15. HoZn5Al3: rare-earth magnetism in a new structure type
  16. The influence of substitutions on the magnetocaloric effect in RCo2 compounds
  17. Thickness shear modes and magnetoelastic waves in a bi-layered structure: magnetic film–non-magnetic substrate
  18. Electrochemical properties of fine-grained AZ31 magnesium alloy
  19. Severe plastic deformation in Gum Metal with composition at the structural stability limit
  20. Applied
  21. Structural, magnetic, and transport properties of quantum well GaAs/δ-Mn/GaAs/InxGa1–xAs/GaAs heterostructures
  22. Effect of co-doping by Pb and La on structural and magnetic properties of Bi2212 superconducting ceramics
  23. Magnetic properties of the hydrogenated unconventional superconductor UCoGe–H
  24. Electrophoresis deposition of metal nanoparticles with reverse micelles onto InP
  25. Electronic structure and electric field gradient calculations for the Zr2Ni intermetallic compound
  26. Solution growth of the Gd–Cu–Al systems in the low-gadolinium concentration range
  27. Low-temperature specific heat of selected ceramics
  28. Novel behaviors in rare-earth-filled skutterudites studied by bulk-sensitive photoemission spectroscopy
  29. Charge transport in photosensitive nanocrystalline PbTe(In) films in an alternating electric field
  30. Enrichment and depletion of alloying elements in surface layers of iron base alloys annealed under different conditions
  31. Notifications
  32. Personal
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