М. S. Rusakov, V. S. Pokatilov, A. S. Sigov, M. E. Matsnev, A. M. Gapochka, T. Yu. Kiseleva, A. E. Komarov, M. S. Shatokhin, A. O. Makarova, “Spatial spin-modulated structure and hyperfine interactions of $^{57}$Fe nuclei in multiferroics BiFe$_{1-x}$T$_{x}$O$_{3}$ ($T$ = Sc, Mn; $x$ = 0, 0.05)”, Fizika Tverdogo Tela, 2016, Volume 58, Issue 1,Pages 102

This article is cited in 6 papers

Magnetism

Spatial spin-modulated structure and hyperfine interactions of $^{57}$Fe nuclei in multiferroics BiFe$_{1-x}$T$_{x}$O$_{3}$ ($T$ = Sc, Mn; $x$ = 0, 0.05)

М. S. Rusakov^a, V. S. Pokatilov^b, A. S. Sigov^b, M. E. Matsnev^a, A. M. Gapochka^a, T. Yu. Kiseleva^a, A. E. Komarov^a, M. S. Shatokhin^a, A. O. Makarova^b

^a Lomonosov Moscow State University
^b Radio Engineering, and Electronics, Moscow State Technical University of Information Technologies, Moscow, Russia

Abstract: The results of the Mössbauer studies on $^{57}$Fe nuclei in multiferroics BiFe$_{1-x}$T$_{x}$O$_{3}$ ($T$ = Sc, Mn; $x$ = 0, 0.05) in the temperature range of 5.2–300 K have been presented. The Mössbauer spectra have been analyzed in terms of the model of an incommensurate spatial spin-modulated structure of cycloid type. Information has been obtained about the effect of the substitution of Sc and Mn atoms for Fe atoms on the hyperfine parameters of the spectrum: the shift and the quadrupole shift of the Mössbauer line, the isotropic and anisotropic contributions to the hyperfine magnetic field, and also the parameter of anharmonicity of the spatial spin-modulated structure.

Keywords: Ferrite, Hyperfine Interaction, Spin Modulation, Hyperfine Magnetic Field, $^{57}$Fe Nucleus.

Received: 25.06.2015