Switching processes in ferroactive solid solution 0.725NaNbO3–0.20KNbO3–0.075CdNb2O6

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Abstract

The results of dielectric hysteresis loops and dielectric permittivity studying of 0.725NaNbO3–0.20KNbO3–0.075CdNb2O6 ceramics in strong (5–40 kV · cm–1) and weak (0–0.3 kV · cm–1) alternating electric field are presented. The parameters of the reversible and irreversible contributions to the dielectric permittivity are determined. Based on the Preisach model, a diagram of the density of domain switching is constructed. It is shown that the distribution function of domains over local coercive fields is characterized by a sharp peak, which indicates a high degree of homogeneity of the domain structure.

About the authors

M. O. Moysa

Institute of Physics, Southern Federal University

Author for correspondence.
Email: moysa@sfedu.ru
Russia, 344090, Rostov-on-Don

M. V. Talanov

Institute of Physics, Southern Federal University

Email: moysa@sfedu.ru
Russia, 344090, Rostov-on-Don

K. P. Andryushin

Institute of Physics, Southern Federal University

Email: moysa@sfedu.ru
Russia, 344090, Rostov-on-Don

N. A. Shvetsova

Institute of Physics, Southern Federal University

Email: moysa@sfedu.ru
Russia, 344090, Rostov-on-Don

I. A. Shvetsov

Institute of Physics, Southern Federal University

Email: moysa@sfedu.ru
Russia, 344090, Rostov-on-Don

A. N. Rybyanets

Institute of Physics, Southern Federal University

Email: moysa@sfedu.ru
Russia, 344090, Rostov-on-Don

References

  1. Zhang S., Xia R., Shrout T.R. et al. // Solid State Commun. 2007. V. 141. No. 12. P. 675.
  2. Wei H., Wang H., Xia Y. et al. // J. Mater. Chem. C. 2018. V. 6. P. 12446.
  3. Wu J.G. Advances in lead-free piezoelectric materials. Singapore: Springer, 2018.
  4. Lee M.H., Kim D.J., Park J.S. et al. // Adv. Mater. 2015. V. 27. P. 6976.
  5. Papanikolaou N.C., Hatzidaki E.G., Belivanis S. et al. // Med. Sci. Monitor. 2005. V. 11. No. 10. P. RA329.
  6. Marcus D.K., Fulton J.J., Clarke E.J. // J. Clin. Child Adolesc. Psychol. 2010. V. 39. No. 2. P. 234.
  7. Mason L.H., Harp J.P., Han D.Y // BioMed Res. Int. 2014. V. 2014. Art. No. 840547.
  8. Coondoo I., Panwar N., Kholkin A. // J. Adv. Dielectr. 2013. V. 3. No. 2. Art. No. 1330002.
  9. Kim J., Ji J.-H., Shin D.-J., Koh J.-H. // Ceram. Int. 2018. V. 44. No. 18. P. 22219.
  10. Egerton L., Dillon D.M. et al. // J. Amer. Ceram. Soc. 1959. V. 42. P. 438.
  11. Moysa M.O., Andryushin K.P., Kubrin S.P. et al. // J. Phys. Conf. Ser. 2021. V. 1942. No. 117. Art. No. 012027.
  12. Andryushin K., Shilkina L., Andryushina I. et al. // Materials. 2021. V. 14. No. 14. Art. No. 4009.
  13. Турик А.В. // ФТТ. 1963. Т. 5. № 10. С. 2922.
  14. Taylor D.V., Damjanovic D. // J. Appl. Phys. 1997. V. 82. P. 1973.
  15. Cima L., Laboure E., Muralt P. // Rev. Sci. Instrum. 2002. V. 73. No. 10. P. 3546.
  16. Fujii I., Hong E., Trolier-McKinstry S. // IEEE Trans. Ultrason. Ferroelectr. Freq. Control. 2010. V. 57. No. 8. P. 1717.
  17. Tsuji K., Fan Z. Bang S., Dursun S. et al. // J. Eur. Ceram. Soc. 2022. V. 42. No. 1. P. 105.
  18. Piazza D., Stoleriu L., Mitoseriu L. et al. // J. Eur. Ceram. Soc. 2006. V. 26. No. 14. P. 2959.

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Copyright (c) 2023 М.О. Мойса, М.В. Таланов, К.П. Андрюшин, Н.А. Швецова, И.А. Швецов, А.Н. Рыбянец