Influence of Electric Poling on Pb0.9Bi0.1Fe0.55Nb0.45O3 Multiferroic

This paper analyzes the influence of electric poling on structure, magnetism, and ferroelectricity by temperature-dependent Raman scattering (180 K-500 K), magnetic susceptibility, and ferroelectric measurements on Pb0.9Bi0.1Fe0.55Nb0.45O3 (PBFNO) multiferroic. X-ray diffraction (XRD) has confirmed the monoclinic structure for PBFNO sample before and after poling. Rietveld refined XRD for poled and unpoled sample shows the influence of electric poling on Fe-O1, Fe-O2, Nb-O, and Bi-O modes with small variation in the lattice parameters. The unpoled PBFNO exhibits broad and overlapping 10 active modes at room temperature (100 to 1300 cm(-1)) at 147, 212, 255, 431, 479, 561, 700, 795, 835, and 1112 cm(-1). In case of a poled sample, Pb-O and Nb-O-Nb modes become more active compared to the unpoled sample. Changes observed in the temperature-dependent magnetic measurements, i.e., ZFC/FC and M-H loop, evidence the poling effects on Fe-O and Nb-O active modes. By poling the improvement in ferroelectric domain, ordering occurs, and it is confirmed by P-E loops. The consequences of numerous investigations on electric poling of PBFNO will provide the foundation for future device development and design.

Automated summary

This paper analyzes the influence of electric poling on the structure, magnetism, and ferroelectricity of PBFNO multiferroic. The results show that electric poling affects the crystal structure and active modes of PBFNO sample.