. . . "Moshnikov, Vyacheslav A." . "[1EE860537DBA]" . . "000295466200010" . "3"^^ . "127687" . "Spivak, Yu M." . "Conducting polymer; Polyaniline; Coated particle; Magnetic permeability; Magnetic anisotropy; Dynamic magnetization process; Ferromagnetic material; MnZn ferrite"@en . . . "> This work is devoted to the analysis of factors responsible for the high-frequency shift of the complex permeability (mu) dispersion region in polymer composites of manganese\u2013zinc (MnZn) ferrite, as well as to the increase in their thermomagnetic stability. The magnetic spectra of the ferrite and its composites with polyurethane (MnZn\u2013PU) and polyaniline (MnZn\u2013PANI) are measured in the frequency range from 1 MHz to 3 GHz in a longitudinal magnetization field of up to 700 \u041E\u0435 and in the temperature interval from minus 20 degrees C to plus150 degrees C. The approximation of the magnetic spectra by a model, which takes into account the role of domain wall motion and magnetization rotation, allows one to determine the specific contribution of resonance processes associated with domain wall motion and the natural ferromagnetic resonance to the mu. It is established that, at high frequencies, the mu of the MnZn ferrite is determined solely by magnetization rotation, which occurs in the region of natural ferromagnetic resonance when the ferrite is in the \u201Csingle domain\u201D state. In the polymer composites of the MnZn ferrite, the high-frequency permeability is also determined mainly by the magnetization rotation; however, up to high values of magnetizing fields, there is a contribution of domain wall motion, thus the \u201Csingle domain\u201D state in ferrite is not reached. The frequency and temperature dependence of mu in polymer composites are governed by demagnetizing field and the induced magnetic anisotropy. The contribution of the induced magnetic anisotropy is crucial for MnZn\u2013PANI. It is attributed to the elastic stresses that arise due to the domain wall pinning by a polyaniline film adsorbed on the surface of the ferrite during in-situ polymerization." . "324" . "Kazantseva, Natalia" . "P(ED2.1.00/03.0111)" . . . "28110" . . . . . "RIV/70883521:28110/12:43865841!RIV13-MSM-28110___" . "Babayan, Vladimir Artur" . "Combined effect of demagnetizing field and induced magnetic anisotropy on the magnetic properties of manganese-zinc ferrite composites"@en . . . . . . "2" . "Sapurina, Irina Yu." . . "Mou\u010Dka, Robert" . "Combined effect of demagnetizing field and induced magnetic anisotropy on the magnetic properties of manganese-zinc ferrite composites" . "RIV/70883521:28110/12:43865841" . . "> This work is devoted to the analysis of factors responsible for the high-frequency shift of the complex permeability (mu) dispersion region in polymer composites of manganese\u2013zinc (MnZn) ferrite, as well as to the increase in their thermomagnetic stability. The magnetic spectra of the ferrite and its composites with polyurethane (MnZn\u2013PU) and polyaniline (MnZn\u2013PANI) are measured in the frequency range from 1 MHz to 3 GHz in a longitudinal magnetization field of up to 700 \u041E\u0435 and in the temperature interval from minus 20 degrees C to plus150 degrees C. The approximation of the magnetic spectra by a model, which takes into account the role of domain wall motion and magnetization rotation, allows one to determine the specific contribution of resonance processes associated with domain wall motion and the natural ferromagnetic resonance to the mu. It is established that, at high frequencies, the mu of the MnZn ferrite is determined solely by magnetization rotation, which occurs in the region of natural ferromagnetic resonance when the ferrite is in the \u201Csingle domain\u201D state. In the polymer composites of the MnZn ferrite, the high-frequency permeability is also determined mainly by the magnetization rotation; however, up to high values of magnetizing fields, there is a contribution of domain wall motion, thus the \u201Csingle domain\u201D state in ferrite is not reached. The frequency and temperature dependence of mu in polymer composites are governed by demagnetizing field and the induced magnetic anisotropy. The contribution of the induced magnetic anisotropy is crucial for MnZn\u2013PANI. It is attributed to the elastic stresses that arise due to the domain wall pinning by a polyaniline film adsorbed on the surface of the ferrite during in-situ polymerization."@en . . . "Journal of Magnetism and Magnetic Materials" . "Combined effect of demagnetizing field and induced magnetic anisotropy on the magnetic properties of manganese-zinc ferrite composites"@en . "NL - Nizozemsko" . "0304-8853" . "12"^^ . "6"^^ . . "Combined effect of demagnetizing field and induced magnetic anisotropy on the magnetic properties of manganese-zinc ferrite composites" . . "10.1016/j.jmmm.2011.08.002" .