Electric-field-temperature phase diagram of the relaxor ferroelectric lanthanum-modified lead zirconate titanate

Transition lines between various phases in the electric-field-temperature p hase diagram of 9/65/35 lanthanum-modified lead zirconate titanate ceramics were determined by measurements of the temperature and electric-field-depe ndent dielectric constant. Above a critical field (E-C) the dc bias electri c field induces a transition from the relaxer (R) to the long-range ferroel ectric (FE) phase. In the temperature direction of the approach to the FE p hase the R-FE; transition line was determined from the field-cooled-field-h eated dielectric susceptibilities, while depolarization temperatures were o btained from the field-cooled-zero-field-heated dielectric susceptibilities . A considerably large shift was found for the above two R-FE transition li nes demonstrating the strong impact of the electric field on the stability of the FE phase with increasing temperature. It was found that below E-C er godicity is broken due to the divergence of the longest relaxation time at the freezing temperature T-0 = 259 K. Hence the system exhibits a transitio n line between the ergodic (ER) and nonergodic (NR) relaxor state. In the d e bias field direction of the approach to the FE phase, the temperature dep endence of E-C, i.e., the transition lines between ER or NR and FE phases w ere studied by measurements of the complex dielectric constant as a functio n of a de bias field at several fixed temperatures. The experimental result s are compared with the results of a spherical random bond-random field mod el of relaxer ferroelectrics. [S0163-1829(99)00233-7].