Structure, magnetic characteristics and electromagnetic response of Y-type hexaferrites and composite materials based on them | Izvestiya vuzov. Fizika. 2019. № 4. DOI: 10.17223/00213411/62/4/21

Structure, magnetic characteristics and electromagnetic response of Y-type hexaferrites and composite materials based on them

In this paper, we study of the phase composition, morphology, magnetic and electromagnetic characteristics both of Y-structure hexaferrites, Ba₂Ni_{2- x}Cu _x Fe₁₂O₂₂ ( x = 0.4, 1.0, 1.2), and composites which are based on them. In order to obtain hexaferrites the standard ceramic method was used. The magnetocrystalline anisotropy fields of the hexaferrites were measured by the method of ferromagnetic resonance. The spectra of magnetic permeability and dielectric permittivity and the frequency dependences of the reflection coefficients of composite materials were studied at the microwave band. It is shown that these materials may be promising in creating of radioabsorbing materials and coatings for the frequency band 3.5-12.2 GHz.

Download file

Counter downloads: 116

Keywords

reflection coefficient, permittivity, permeability, ferromagnetic resonance, saturation magnetization, magnetocrystalline anisotropy, hexaferrites, коэффициент отражения, магнитная и диэлектрическая проницаемости, ферромагнитный резонанс, намагниченность насыщения, магнитокристаллическая анизотропия, гексагональный ферримагнетик

Authors

Name	Organization	E-mail
Wagner D.V.	National Research Tomsk State University	vagner1507@mail.ru
Dotsenko O.A.	National Research Tomsk State University; Tomsk State University of Control Systems and Radioelectronics	dol@mail.tsu.ru
Zhuravlev V.A.	National Research Tomsk State University	ptica@mail.tsu.ru

Всего: 3

References

Kreslin V.Yu. and Naiden E.P. // Instrum. Exp. Tech. - 2002. - V. 45. - No. 1. -P. 55-57.

Журавлев В.А., Мещеряков В.А. // Изв. вузов. Физика. - 2013. - Т. 56. - № 12. - С. 62-69.

Chalapat K., Sarvala K., Li J., and Paraoanu G.S. // IEEE J. Microwave Theory Tech. - 2009. - V. 57. - No. 9. - P. 2257-2267.

Zhuravlev V.A., Itin V.I., Minin R.V., et al. // J. Alloys Compounds. - 2019. - V. 771. - P. 686- 698.

Zhuravlev V.A. and Naiden E.P. // Phys. Solid State. - 2009. - V. 51. - Iss. 2. - P. 327-333.

Asti G. and Rinaldi S. // J. Appl. Phys. - 1974. - V. 45. - P. 3601-3610. https://doi.org/10.1063/1.1663823.

Grossinger R. // J. Alloys Compounds. - 2004. - V. 369. - P. 5-9.

Grossinger R. // JMMM. - 1982. - V. 28. - P. 137-142. https://doi.org/10.1016/0304-8853(82)90037-3.

Найден Е.П., Минин Р.В., Итин В.И., Журавлев В.А. // Изв. вузов. Физика. - 2013. - Т. 56. - № 6. - С. 63-68.

Anhalt M. // JMMM. - 2008. - V. 320. - P. e366-e369.

Панин С.В., Языков С.Ю., Овечкин Б.Б. и др. // Изв. вузов. Физика. - 2015. - Т. 58. - № 6/2. - С. 221-225.

Dotsenko O.A., Suslyaev V.I., Frolov K.O., and Wagner D.V. // AIP Conf. Proc. - 2016. - V. 1772. - P. 040006-1-040006-7.

Dunaevskii G.E., Suslyaev V.I., Zhuravlev V.A., et al. // 41th Int. Conf. on Infrared, Millimeter, and Terahertz Waves. - 2016. - P. 1-2.

Доценко О.А., Вагнер Д.В., Кочеткова О.А. // Изв. вузов. Физика. - 2013. - Т. 56. - № 8/2. - С. 260-262.

Доценко О.А., Вагнер Д.В., Кочеткова О.А. // Изв. вузов. Физика. - 2012. - Т. 55. - № 8/2. - С. 179-181.

Perigo E.A., Weidenfeller B., Kollar P., and Fuzer J. // Appl. Phys. Rev. - 2018. - V. 5. - P. 031301-1-031301-37. https://doi.org/10.1063/1.5027045.

Ebnabbasi K., Mohebbi M., and Vittoria C. // J. Appl. Phys. - 2013. - V. 113. - P. 17C707. https://doi.org/10.1063/1.4794745.

Ebnabbasi K., Mohebbi M., and Vittoria C. // J. Appl. Phys. - 2013. - V. 113. - P. 17C710. http://doi.org/10.1063/1.4795721.

Смит Я., Вейн Х. Ферриты. - M.: ИЛ, 1962. - 504 с.

Pullar R.C. // Prog. Mat. Sci. - 2012. - V. 57. - Iss. 7. - P. 1191-1334.