Hlinka J, Ostapchuk T, Noujni D, Kamba S, Petzelt J
Institute of Physics, Academy of Sciences of the Czech Republic, Na Slovance 2, 18221 Praha 8, Czech Republic.
Phys Rev Lett. 2006 Jan 20;96(2):027601. doi: 10.1103/PhysRevLett.96.027601. Epub 2006 Jan 17.
The Letter suggests treating the infrared reflectivity spectra of single crystal perovskite relaxors as fine-grained ferroelectric ceramics: locally frozen polarization makes the dielectric function strongly anisotropic in the phonon frequency range and the random orientation of the polarization at nanoscopic scale requires taking into account the inhomogeneous depolarization field. Employing a simple effective medium approximation (the Bruggeman symmetrical formula) turns out to be sufficient for reproducing all principal features of room temperature reflectivity of Pb(Mg(1/3)Nb(2/3))O3. One of the reflectivity bands is identified as a geometrical resonance entirely related to the nanoscale polarization inhomogeneity. The approach provides a general guide for systematic determination of the polar mode frequencies split by the inhomogeneous polarization at the nanometer scale.
局部冻结的极化使得介电函数在声子频率范围内具有强烈的各向异性,并且纳米尺度上极化的随机取向需要考虑非均匀退极化场。事实证明,采用简单的有效介质近似(布鲁格曼对称公式)足以重现Pb(Mg(1/3)Nb(2/3))O3室温反射率的所有主要特征。其中一个反射带被确定为完全与纳米尺度极化不均匀性相关的几何共振。该方法为系统确定由纳米尺度非均匀极化分裂的极性模式频率提供了一般指导。