Investigation of Mg doped Y-type Barium hexaferrite using Mössbauer spectroscopy

Y-type barium hexaferrite Ba2Co2-xMgxFe12O22 (x = 0, 0.1, 0.3, 0.5) was prepared by conventional solid-state reaction method. The samples were sintered first at 1100 °C and then at 1150 °C to obtain the single phase Ba2Co2-xMgxFe12O22 samples. To observe the crystal structure of the prepared sample, X-ray diffraction (XRD) with Cu-Kα (λ = 1.5406 Å) was used. The analysis of the XRD patterns showed that the Ba2Co2-xMgxFe12O22 is hexagonal in the R-3m space group. To investigate the magnetic properties, a vibrating sample magnetometer (VSM) and Mossbauer spectroscopy were utilized. The hysteresis loops and the zero field cooled-field cooled (ZFC-FC) curves of the samples were obtained via VSM. The results of the M-H experiment showed that, the saturation magnetization (Ms) and the coercivity (Hc) decreased with increasing Mg2+ concentration. The spin reorientation temperature (Ts) was observed in the ZFC-FC curves obtained through temperature dependent magnetization experiments. The Ts was decreased from 215 to 202 K as the substitution of Mg2+ ions increased. The Mossbauer spectra were obtained using Mossbauer spectroscopy. The Mössbauer experiments were conducted from 4.2 to 295 K. The results of the Mossbauer experiments at various temperatures showed that the magnetic hyperfine fields (Hhf) decreased with an increase in temperature. The isomer shift (δ) values maintained at approximately 0.1 ~ 0.4 mm/s. The ion state of the iron at all temperatures was Fe3+. The quadrupole splitting (ΔEQ) values were stably maintained; however, they changed abruptly at Ts.