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M. A. Almessiere,Y. Slimani,A.V. Trukhanov,A. Baykal,H. Gungunes,E.L. Trukhanova,S.V. Trukhanov,V.G. Kostishin 한국공업화학회 2020 Journal of Industrial and Engineering Chemistry Vol.90 No.-
The dysprosium ions (Dy3+)-substituted nanosized ferrites (NFs) of composition [Ni0.5Co0.5](DyxFe2-x)O4(x0.08) were prepared using the citrate gel process. To analyse the magnetic properties of the samples,the Mössbauer spectroscopy methods and vibrating sample magnetometry (VSM) were applied. Theroom temperature Mössbauer spectra werefitted to determine the hyperfine parameters of the proposedNFs. The preferential occupation of the octahedral B sites by the Dy3+ in the spinel ferrite sublattice wasconfirmed from the cations distribution. The hyperfine magneticfield of both sublattice decreasedwhereas the increase in the Dy3+ substitution was observed. The S-parameters of the prepared NFs in thehigh frequency range were measured by the co-axial method. In addition, the MW reflection losses wereevaluated by means of the frequency-dependent (in the range of 1–20 GHz) complex permittivity andpermeability spectra. All the NFs indicated that the absorption of the electromagnetic radiation wasranging between 2.9–5.5 GHz due to the natural ferromagnetic resonance. A correlation amongst the Dy3+ concentration, microstructure, magnetic and microwave (MW) characteristics of these NFs wasestablished. It’s been asserted that by controlling the Dy3+ contents carefully, the MW absorption andmagnetic attributes of the proposed spinel NFs can be tailored.
R. E. Huseynov,A. I. Mammadov,R. Z. Mehdiyeva,A. V. Trukhanov,S. V. Trukhanov,V. A. Turchenko,T. P. Hoang,N.T. Dang,S. H. Jabarov 한국물리학회 2019 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.74 No.6
The influences of Al doping on the structural, magnetic and dynamical properties of BaFe$_{12-x}$Al$_x$O$_{19}$ solid solutions ($x = 0.1$--1.2) have been studied by using a combination of X-ray diffraction, neutron diffraction and infrared spectroscopy. The magnetic moment of every Fe atom, including combinations, has been defined, and the magnetic moment of Fe$^{3+}$ ions was found to decrease as the concentration of Al$^{3+}$ diamagnetic ions in the combinations increased. Studies carried out by using infrared spectroscopy showed that four oscillations under normal conditions in these combinations. The results obtained by using infrared spectroscopy for BaFe$_{12-x}$Al$_x$O$_{19}$ combinations were compared with the results obtained by using Raman spectroscopy.
Magnetic Phase Transitions in Zn1−xMnxO
Kh. T. Igamberdiev,Sh. U. Yuldashev,권영해,강태원,S. A. Chizhik,A. V. Trukhanov,Sh. M. Rakhimova 한국물리학회 2014 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.64 No.10
Thermal diffusivity measurements have been used to study the magnetic phase transitions in ZnOdoped with Mn. The temperature dependencies of the thermal diffusivity in the wide temperaturerange from 70 to 300 K reveal an inverted-lambda-shaped peak at a temperature of 75 K forZn0.95Mn0.05O doped with nitrogen and additional peaks at 117 K and 122 K for the nitrogen-dopedand the undoped Zn0.95Mn0.05O samples, respectively. The lambda-shaped peak demonstrates theexistence of a second order phase transition in these samples. The thermal diffusivity peak at 75 Kwas attributed to a ferromagnetic-paramagnetic phase transition in the Zn0.95Mn0.05O doped withnitrogen, and the peaks at 117 K and 122 K were attributed to an antiferromagnetic-paramagneticphase transition in the MnO nanoclusters.