Relaxation Processes of Potassium Tantalate Doped by Lithium.

The results of an investigation of dielectric properties of perovskite-type single crystals with solid solutions of potassium-lithium tantalate K1-xLixTaO3 are presented. Particular attention is focused on two selected concentrations of x, 2% and 4.3%, which are representative for the samples with lower and higher concentration of lithium ions, respectively. While a peak in dielectric losses, as observed at higher temperature, has just been revealed for low Li content, it becomes well developed for high lithium concentration. In such crystals there exist noticeable oxygen vacancies, and additional defects associated with lithium ions have a great influence on the dielectric losses in low temperature scope. The consideration pertains to the temperature dependence of the activation energy of the possible polaronic state in the context of lithium ion content.

Dielectric response and specific heat studies of Cd2Nb2O7 ceramics obtained from mechano-synthesized nanopowders.

Cd(2)Nb(2)O(7) is still an interesting ferroelectric material because of its high permittivity value at helium temperatures and a variety of dielectric relaxation processes, the origin of which is still puzzling. We prepared hot-pressed ceramics, with grain sizes from 100 to 150 nm, obtained from Cd(2)Nb(2)O(7) nanopowders synthesized by high-energy milling of CdO and Nb(2)O(5) and studied their dielectric response and thermal properties. The nanoceramics were characterized by X-ray diffraction and their dielectric properties were measured at temperatures from 4K to 575K. Dielectric response of the nanoceramics was found to consist of a huge anomaly at ~150K with complex dielectric absorption and three relaxation processes apparent in frequency and temperature dependences of the imaginary part of permittivity in the temperature range from 18K to 145K. The anomaly at ~150K is related to overlapping contributions from the Curie point (shifted downward because of the size effect) and a dielectric relaxation process. The behavior of three relaxation modes observed at temperatures below 145K is discussed, based on the model proposed by Malcherek of polar nanoregions in the orthorhombic phase of Cd(2)Nb(2)O(7) and the theory of dielectric response of ferroelectric relaxors by Bokov and Ye.