Raman spectroscopic study of phase transitions in undoped morphotropic PbZr_1−xTi_xO₃

Abstract: Several PbZr 1−x Ti x O 3 (PZT) compositions in the proximity of the morphotropic phase boundary (MPB) were examined by means of Raman spectroscopy in the 15-800 K temperature range. Previous studies performed by other researchers using various techniques evidenced that, in the phase diagram of PZT, areas with rhombohedral/monoclinic and tetragonal/monoclinic phases coexist across the MPB. For these compositions, either long-range or short-range symmetry ordering of the monoclinic phase should be considered, s… Show more

“…1insets (a-c) affected by the existence of the ferroelectric phase. 17,18,15 All of the identified modes except E+B1 were found to soften with the rise in temperature. 19 Above 460 K all the modes undergo significant damping, and A1 (1TO) and A1 (2TO) soft modes lose their intensities and disappear,which can be considered as arising from a displacive phase transition in which the ferroelectric tetragonal to paraelectric cubic symmetry distortion commences at temperatures below the disappearance of ferroelectric ordering.…”

Effect of off-center ion substitution in morphotropic lead zirconate titanate composition

“…1insets (a-c) affected by the existence of the ferroelectric phase. 17,18,15 All of the identified modes except E+B1 were found to soften with the rise in temperature. 19 Above 460 K all the modes undergo significant damping, and A1 (1TO) and A1 (2TO) soft modes lose their intensities and disappear,which can be considered as arising from a displacive phase transition in which the ferroelectric tetragonal to paraelectric cubic symmetry distortion commences at temperatures below the disappearance of ferroelectric ordering.…”

Effect of off-center ion substitution in morphotropic lead zirconate titanate composition

“…In relaxor or morphotropic ferroelectrics with short-range phase segregation, Raman signals from second phases of nanometer scale but with the same correlation length are superimposed on the overall signal belonging to a macroscopic matrix phase. [16][17][18][19] Raman spectroscopy has been used to study phase transitions and the nanoscale structural characteristics of NBT and its solid solutions. 15,[20][21][22][23][24] Due to challenges of intrinsic broadening and overlapping of phonon modes in the assignment of mode symmetries, structural analysis thus relies on analyzing soft-mode or hard-mode behavior as a function of composition, pressure or temperature.…”

Structure and properties of Fe-modified Na0.5Bi0.5TiO3at ambient

“…For example, the so-called structural mode (that can be thought as the soft-mode of AFD motions) of SrTiO 3 interacts with a polar mode, leading to its observation in the complex dielectric or Raman spectra 10,11 below a critical temperature (below which the structural phase simultaneously exhibits long-range-ordered tilting of the oxygen octahedra and a spontaneous polarization). It is also believed 12,13 that the additional mode appearing below ≃ 200 K in the Raman spectra of one of the most important ferroelectrics to date -that is Pb(Zr,Ti)O 3 (PZT) -originates from a dynamical coupling between FE and AFD motions.…”

“…(1) to demonstrate that it is possible to develop such a scheme; (2) to apply it to PZT to prove its accuracy; (3) to gain a deeper knowledge into the additional peak that has been reported in Refs [12,13] (and that, as we found, does indeed originate from the coupling between FE and AFD motions); (4) to further use the proposed technique to reveal an electric-field-induced anticrossing involving FE and AFD degrees of freedom in PZT.…”

Dynamical coupling inPb(Zr,Ti)O3solid solutions from first principles