Neutron Diffraction Study of Field Cooling Effects on Relaxor Ferroelectrics Pb[(Zn1/3 Nb2/3)0.92 Ti0.08] O3
Abstract
High-temperature (T) and high-electric-field (E) effects on Pb[(Zn1/3 Nb2/3)0.92 Ti0.08]O3 (PZN-8%PT) were studied comprehensively by neutron diffraction in the ranges 300 <= T <= 550 K and 0 <= E <= 15 kV/cm. We have focused on how phase transitions depend on preceding thermal and electrical sequences. In the field cooling process (FC, E parallel [001] >= 0.5 kV/cm), a successive cubic (C) --> tetragonal (T) --> monoclinic (MC) transition was observed. In the zero field cooling process (ZFC), however, we have found that the system does not transform to the rhombohedral (R) phase as widely believed, but to a new, unidentified phase, which we call X. X gives a Bragg peak profile similar to that expected for R, but the c-axis is always slightly shorter than the a-axis. As for field effects on the X phase, we found an irreversible X --> MC transition via another monoclinic phase (MA) as expected from a previous report [Noheda et al. Phys. Rev. Lett. 86, 3891 (2001)]. At a higher electric field, we confirmed a c-axis jump associated with the field-induced MC --> T transition, which was observed by strain and x-ray diffraction measurements.
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