Author(s)

M. K. H. Bhuiyan^1*, M. A. Gafur², M. N. I. Khan³, A. A. Momin¹, A. K. M. Akther Hossain¹

¹Department of Physics, Bangladesh University of Engineering & Technology, Dhaka, Bangladesh.
²Pilot Plant & Process Development Centre, Dhaka, Bangladesh.
³Materials Science Division, Atomic Energy Centre, Dhaka, Bangladesh.

Conventional solid state reaction technique was used to synthesize Ca_1-xSr_x(Fe_0.5Ta_0.5)O₃ multiferroic ceramics (where x = 0.0, 0.1, 0.2, 0.3, 0.4 and 0.5). Powder of ingredients was mixed thoroughly in stoichiometric amount and calcined at 1150°C for 5 h. Disk and toroid shaped samples prepared from each composition were sintered at 1450°C for 5 h. The XRD analysis confirms that all compositions are single phase cubic perovskite structure. The theoretical and bulk density increases with increase of Sr content, which may be attributed to the fact that the atomic weight and density of Sr are larger than those of Ca. The average grain size increased with increasing Sr content up to x = 0.2, and then decreased with further increase of Sr content. Frequency dependent dielectric constant shows usual dielectric dispersion at lower frequencies due to Maxwell-Wagner type interfacial polarization. The higher values of real and imaginary part of impedance at lower frequencies are also due to the fact that all kinds of polarization mechanism are present and increase with Sr content indicating the enhancement property of the composition. The continuous dispersion on increasing frequency contributes to the conduction phenomena. Two semicircles correspond to the grain boundary and grain resistance separately. The complex modulus analysis reveals the polaron hopping and negligibly small contribution of electrode effect. The continuous dispersion on increasing frequency may be contributed to the conduction phenomena. The ac conductivity, σ_ac, was derived from the dielectric measurement and it increases with increase of frequency for all the compositions and can also be explained on the basis of polaron hopping mechanism. At higher frequencies conductive grains are more active, and thereby increases of hopping of charge carrier contribute to rise in conductivity. The real part of initial permeability increased with increasing Sr content up to x = 0.2, and then decreased further increasing the Sr content. Firstly, it increased due to the higher values of grain size, and then decreased with the Sr content due to the lowering the grain size. The saturation magnetization, M_s, increases for x = 0.2 and then decreases with increasing Sr content due to the pore acted as a pinning centre of electron spin; thereby Ms decreases also due to the grain size which is well supported by the permeability results. The decrease of magnetoelectric voltage coefficient α_ME with content may be attributed to the increased porosity in the sample. The presence of the pores breaks the magnetic contacts between the grains. The highest value of α_ME is 42.22 mV·cm^-1·Oe^-1 for the composition x = 0.2 which is attributed to the enhanced mechanical coupling. It was revealed that there is a dramatic influence of Sr with content x = 0.2 and also has strong correlations on grain size as well as magnetic and magnetoelectric properties.

Perovskite, Impedance Spectroscopy, Initial Permeability, Saturation Magnetization, Magnetoelectric Voltage Coefficient

Bhuiyan, M. , Gafur, M. , Khan, M. , Momin, A. and Hossain, A. (2017) Correlations of Structural, Dielectric, Magnetic and Magnetoelectric Properties of Ca_1-xSr_x(Fe_0.5Ta_0.5)O₃ Multiferroic Ceramics. Materials Sciences and Applications, 8, 64-84. doi: 10.4236/msa.2017.81005.