Email this article 
A mechanism of magnetic hysteresis in heterogeneous Gd-Zr-Co-Cu-Fe alloys
- Authors: Semenova E.M.1, Lyakhova M.B.1, Rakunov P.A.1, Karpenkov A.Y.1, Konyukhov Y.V.2
-
Affiliations:
- Tver State University
- National University of Science and Technology MISIS
- Issue: Vol 88, No 5 (2024)
- Pages: 840-846
- Section: Physics of ferroelectrics
- URL: https://journals.rcsi.science/0367-6765/article/view/274238
- DOI: https://doi.org/10.31857/S0367676524050243
- EDN: https://elibrary.ru/QDFDID
- ID: 274238
Cite item
Open Access
Access granted
Subscription Access
Abstract
The behavior of the (Gd, Zr)(CoCuFe)Z alloys samples in magnetic fields oriented at different angles to their easy magnetization axis has been studied. The angular dependences of magnetization and coercivity were constructed. The hysteresis loops of the two main structural components of the samples were constructed based on images of the domain structure in demagnetizing fields. An analysis of the obtained results was carried out under assumption of the mixed mechanism of hysteresis in these alloy family.
About the authors
E. M. Semenova
Tver State University
Author for correspondence.
Email: Semenova_E_M@mail.ru
Russian Federation, Tver
M. B. Lyakhova
Tver State University
Email: Semenova_E_M@mail.ru
Russian Federation, Tver
P. A. Rakunov
Tver State University
Email: Semenova_E_M@mail.ru
Russian Federation, Tver
A. Yu. Karpenkov
Tver State University
Email: Semenova_E_M@mail.ru
Russian Federation, Tver
Yu. V. Konyukhov
National University of Science and Technology MISIS
Email: Semenova_E_M@mail.ru
Russian Federation, Moscow
References
- Coey J.M.D. // Engineering. 2020. V. 6. No. 2. P. 119.
- Liu S. // Chin. Phys. B. 2019. V. 28. No. 1. Art. No. 017501.
- Tang W., Zhang Y., Hadjipanayis G.C. // IEEE Trans. Magn. 2000. V. 36. No. 5. P. 3294.
- Пушкарь Ю.Е., Ляхова М.Б., Бабушкин Ю.В. // Высокочистые вещества. 1988. № 4. С. 164.
- Rong C., Zhang J, Zhang H. et al. // J. Magn. Magn. Mater. 2004. V. 279. No. 2-3. P. 143.
- Suponev N.P., Grechishkin R.M., Lyakhova M.B., Pushkar Yu.E // J. Magn. Magn. Mater. 1996. V. 157. P. 376.
- Lyakhova M.B., Semenova E.M., Ivanov R.P. // Met. Sci. Heat Treat. 2015. V. 56. P. 602.
- Abhyankar A.C., Gopalan R., Singh A.K. et al. // J. Mater. Sci. 2004. V. 39. P. 3433.
- Urzhumtsev A., Maltseva V., Volegov A. // J. Magn. Magn. Mater. 2022. V. 551. P. 169143.
- Лилеев А.С., Пинкас В.В. // Изв. РАН. Сер. физ. 2019. Т. 83. № 7. С. 876; Lileev A.S., Pinkas V.V. // Bull. Russ. Acad. Sci. Phys. 2019. V. 83. No. 7. P. 795.
- Ляхова М.Б., Семенова Е.М., Супонев Н.П., Иванов Р.П. // Физ.-хим. асп. изуч. класт. нанострукт. и наноматер. 2011. № 3. С. 114.
- Fidler J., Skalicky P., Rothwarf F. // IEEE Trans. Magn. 1983. V. 19. No. 5. P. 2041.
- Karpenkov A.Yu., Skokov K.P., Dunaeva G.G. et al. // J. Phys. D. Appl. Phys. 2022. V. 55. Art. No. 455002.
- Stoner E.C., Wohlfarth E.P. // Phil. Trans. Royal Soc. London. Ser. Sci. Phys. 1948. V. 240-A. No. 826. P. 599.
- Кринчик Г.С. Физика магнитных явлений. М.: МГУ, 1976. 367 с.
- Мишин Д.Д., Бирюков В.С., Супонев Н.П. // В кн.: Сплавы редких и тугоплавких металлов с особыми физическими свойствами. М.: Наука, 1979. С. 155.
Supplementary files
