Spontaneous polarization of a nonstoichiometric ferroelectric NaNO2at low temperatures

Abstract

We report measurements of the temperature dependence of the pyroelectric charge in a nonstoichiometric z-cut sample of sodium nitrite in the temperature range 4.2–300 K. The obtained data are supplemented by the measurements of thermally stimulated depolarization (TSD) in electric fields of different magnitudes and polarities. All the experimental results serve as the basis for constructing the temperature dependence of the spontaneous polarization ΔPs(T,U) and the pyroelectric coefficient γ(U,T) for fixed external stimuli. It is found that the value of ΔPs in the sample of sodium nitrite is negligible at low temperatures, up to 40 K. This indicates (for known experimental values of the linear expansion coefficients) a minor contribution of the sample piezoelectricity to the spontaneous polarization in this temperature range. Starting from T = 75 K, an exponential increase in the contribution to the total charge of the TSD is found only in the defect subsystem of the crystal. Based on the data of physical studies, a crystal-physics model is proposed, which differs from the model presented by Lines and Glass. Due to the splitting of ion positions in all three sublattices upon the transition to the paraelectric phase, NaNO2 crystals can be assigned to the three-dimensional type of ferroelectrics, according to the classification by Abrahams and Keve. This agrees with the estimate of the spontaneous polarization Ps ∼ 0.01 C/m2 given in the paper. This value is significantly different from the data obtained by repolarization of nonstoichiometric samples in strong electric fields up to the phase transition temperature.