Anomalous increase in the unipolarity of doped lithium niobate crystals in the temperature range 300–400 K
Abstract
The lithium niobate single crystals doped with B, Zn, and Gd at a content of 0.002–0.44 wt % have been grown. Their domain structure, static and dynamic piezoelectric properties, dielectric properties, and conductivity are investigated over a wide range of frequencies. The dielectric dispersion associated with the Debye-type relaxation process and considerable anomalies in ɛ′22(T) and conductivity are revealed in the temperature range ∼300–400 K. At these temperatures, the piezoelectric modulus d 33 of the initial polydomain crystals LiNbO3: Gd jumpwise increases up to the values close to those for the undoped single-domain crystal. This increase is accompanied by a substantial change in the etch patterns due to the domain structure of the crystal. The nature of the anomalies observed in LiNbO3 in the above temperature range is discussed.