NUMERICAL ANALYSIS OF DIELECTRIC RESPONSE IN RELAXOR FERROELECTRICS

The dielectric response of complex perovskite relaxor ferrolectrics Pb(Mg1/3Nb2/3) O3 with respect to temperature and frequency was carefully measured. Using a normalized method of the 'universal' many-body theory, the relaxation process was analyzed around the temperature of dielectric absorption maximum. There is no structural phase transition near this temperature and the behavior is closely like that of a polar dipole medium. The functional relationship about frequency and temperature of dielectric pormittivity maximum was also fitted to discuss the dynamic behavior of polar microregion. It is confirmed that a new power exponential Arrhenius relation is better to characterize the relaxation behavior than the Vogel-Fulcher and Debye relations. Based on the polarization theory of polar dipoles, we analyzed the relaxation mechanism of ferroelectric microdomains of relaxor ferroelectrics, and get an ideal distribution function of relaxation time. Consequently, a simulated dielectric response dependence on temperature and frequencies can be expressed, which is well coincided with experiment results.

RANDOM FIELDS IN RELAXOR FERROELECTRICS—A JUBILEE REVIEW

Substitutional charge disorder as in PbMg_(1/3)Nb_(2/3)O_(3),structural cation vacancies as in Sr_(x)Ba_(1-x)Nb_(2)O_(6) and isovalent substitution of off-centered cations as in BaTi_(1-x)Sn^(x)O_(3) and BaTi1-xZrxO_(3) give rise to quenched electric random-fields(RFs),which we proposed to be at the origin of the peculiar behavior of relaxor ferroelectrics 20 years ago.These are,e.g.a strong frequency dispersion of the dielectric response and an apparent lack of macroscopic symmetry breaking in the low temperature phase.Both are related to mesoscopic RF-driven phase transitions,which give rise to irregularly shaped quasi-stable polar nanoregions below the characteristic temperature T^(*),but above the global transition temperature Tc.Their co-existence with the paraelectric parent phase can be modeled by time-dependentfield equations under the control of quenched RFs and stress-free strain(in the case of order parameter dimension n2).Transitions into global polar order at Tc may occur in uniaxial relaxors as observed on the uniaxial relaxor ferroelectric Sr0.8Ba_(0.2)Nb_(2)O_(6) and come close to RF Ising model criticality.Re-entrant relaxor transitions as observed in solid solutions of Ba_(2)Pr_(0.6)Nd_(0.4)(FeNb_(4))O_(15) are proposed to evidence the coexistence of distinct normal and relaxor ferroelectric phases within the framework of percolation theory.Keywords.

Relaxor ferroelectric behavior:An approach considering both the dipolar and electrical conductivity contributions

The relaxor behavior of PLZT ferroelectric ceramics has been analyzed in a wide frequency and temperature ranges,below and above the temperature for the formation of the so-called polar nano-regions(PNRs).An approximation to the dynamical behavior of the PNRs has been discussed using Cole-Cole’s relaxation model and Jonscher’s Universal Relaxation Law.The analysis considers both the dipolar contribution and those ones associated with DC and AC electric conductivities,this latter not being previously reported in the literature for relaxor materials.The effectiveness of the developed model has been verified from the agreement between the experimental data and the theoretical calculations.This study also offers an indirect method to predict the DC component of the electrical conductivity.

Exploring the electromechanical response and electric field-induced dielectric anomalies in PMN-PT electroceramics

Electromechanical and dielectric properties of PMN-PT ferroelectric ceramics are investigated.In particular,dielectric response studies focus on the investigation of the influence of the DC applied electric field on the dielectric permittivity as a function of temperature and frequency.Results reveal an electric field driven dielectric anomaly in the dielectric permittivity curves,e(E),which in turn prevails in the whole ferroelectric phase region and continuously vanishes for temperatures near the paraelectric-ferroelectric phase transition temperature.A schematic model for the domains dynamics of the studied material is proposed taking into account the simultaneous contribution of both 90°and 180°domains walls.

钙钛矿结构弛豫型铁电体的介电弛豫谱研究

通过分析钙钛矿结构弛豫铁电陶瓷铌镁酸铅的复介电响应 ,探讨了其在弥散相变温区的弛豫特征及极性微区、铁电微畴的极化机制。数值拟合表明幂指数 Arrhenius关系比 Vogel- Fulcher关系可更为合理地表征弛豫型铁电体。给出铁电微畴的弛豫响应时间分布函数 。

PMZNT弛豫铁电陶瓷在不同外电场下的介电特性

对ＰＭＮ－ＰＺＮ－ＰＴ弛豫铁电陶瓷在不同外电场下的介电特性进行了研究．结果表明：直流偏压场与交流测试场对弛豫铁电体的作用相反，增大偏压场导致介电常数的降低，而增大测试场则使介电常数升高．同时频率色散度也呈现了不同的变化趋势．利用超顺电理论及多畴态模型对上述结果进行了定性分析．

Bi_(0.5)Na_(0.5)Ti_(1-x)Co_xO_3陶瓷的结构和电学性能研究

采用传统的固相法制备了(Bi0.5Na0.5)Ti1-xCoxO3(0≤x≤0.015)无铅压电陶瓷。结果表明,BNT陶瓷表现出单斜结构Cc,并伴随Co的加入晶粒明显长大。同时,Co离子进入了钙钛矿结构的B位,形成硬性替代效应,晶格中形成氧空位,使BNT晶粒的内偏场上升,BNT陶瓷铁电性能的温度稳定性提高。

双手性铁电液晶3M2CPOOB的介电特性及电光特性

双手性铁电液晶３Ｍ２ＣＰＯＯＢ的自发极化和介电常数非常大，由于表面作用的影响，冷却和加热过程的介电常数呈现出一个大的回滞．在电场作用下液晶的螺旋态和螺旋展开态之间的转换，由此引起光散射的变化所产生的电光效应，其阈值电场极小，并与盒厚和温度有关，响应时间在μｓ级．