Ferroelectric properties and fatigue of PbZr0.51Ti0.49O3 thin films of varying thickness: Blocking layer model

Larsen, P.K.; Dormans, G. J. M.; Taylor, Deborah J.; Veldhoven, P.J. van

doi:10.1063/1.357589

Cited by 324 publications

(128 citation statements)

References 18 publications

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“…These detrimental layers induce a significant voltage drop. 2,3 As d decreases, E C increases: E C ∝ d -1 . [2][3][4][5][6] Due to the lattice mismatch between the film and substrate, strain may develop inside the FE film.…”

Section: -12mentioning

confidence: 99%

Coercive fields in ultrathin BaTiO3 capacitors

Kim

Noh

et al. 2006

Applied Physics Letters

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Thickness-dependence of coercive field (E C ) was investigated in ultrathin BaTiO 3 capacitors with thicknesses (d) between 30 and 5 nm. The E C appears nearly independent of d below 15 nm, and decreases slowly as d increases above 15 nm. This behavior cannot be explained by extrinsic effects, such as interfacial passive layers or strain relaxation, nor by homogeneous domain models. Based on domain nuclei formation model, the observed E C behavior is explainable via a quantitative level. A crossover of domain shape from a half-prolate spheroid to a cylinder is also suggested at d~ 15 nm, exhibiting good agreement with experimental results.

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Section: -12mentioning

confidence: 99%

Coercive fields in ultrathin BaTiO3 capacitors

Kim

Noh

et al. 2006

Applied Physics Letters

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“…2,3 The passive layer model suggests that the cyclic switching of the sample results in growth of the low-dielectric constant interface layer. [4][5][6] As a result, the field applied to the bulk of ferroelectric decreases which leads to decrease of the residual polarization.…”

Section: Introductionmentioning

confidence: 99%

Fatigue effect in ferroelectric crystals: Growth of the frozen domains

Shur

Ахматханов

Батурин

2012

Journal of Applied Physics

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The model of the fatigue effect during cyclic switching caused by growth of the frozen domain area with charged domain walls has been proposed. It was claimed on the basis of the previous experimental results that for switching in increasing field the frozen domain area started to grow at the given sub-threshold field value and stopped at the threshold field. The influence of the shape and frequency of the field pulses used for cyclic switching has been considered. The uniaxial ferroelectric stoichiometric lithium tantalate single crystals produced by vapor transport equilibration with record low value of coercive field have been chosen as a model material for experimental verification of the model. The formation of the charged domain walls as a result of cyclic switching has been revealed by analysis of the domain images obtained by optical and Raman confocal microscopy. It has been shown that the fatigue degree is equal to the fraction of the frozen domain area. The experimental dependence of the switched charge on the cycle number has been successfully fitted by modified Kolmogorov-Avrami formula. The experimentally observed frequency independence of fatigue profile for rectangular pulses and frequency dependence for triangular pulses has been explained by proposed model.

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“…Experimentally, it was revealed that the inverse of the measured capacitance varies linearly with the film thickness. 1,2,[9][10][11][12][13][14][15] This observation led to a widely accepted interpretation of the experimental data in terms of a "series capacitor model." 9 According to such model, the measured capacitance density c t can be described by the relation…”

Section: Introductionmentioning

confidence: 99%

Thickness dependence of intrinsic dielectric response and apparent interfacial capacitance in ferroelectric thin films

Pertsev

Dittmann

Plonka

et al. 2007

Journal of Applied Physics

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We studied theoretically the influence of the progressive strain relaxation and the depolarizing-field effect on the thickness dependence of the out-of-plane dielectric response of epitaxial ferroelectric thin films sandwiched between extended metal electrodes. The calculations show that the inverse of the measured capacitance varies with the film thickness almost linearly in the most part of the thickness range at the majority of temperatures. Extrapolation of this linear dependence to zero thickness usually gives considerable nonzero intercept even in the absence of nonferroelectric interfacial layers. Remarkably, such apparent “interfacial capacitance” in a certain temperature range becomes negative. The physical meaning of the effective dielectric constant, which can be extracted from the slope of the reciprocal capacitance thickness dependence, is also analyzed. The theoretical predictions are compared with the experimental data obtained for single-crystalline SrRuO3∕Ba0.7Sr0.3TiO3∕SrRuO3 and Pt∕Ba0.7Sr0.3TiO3∕SrRuO3 thin-film capacitors.

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Ferroelectric properties and fatigue of PbZr0.51Ti0.49O3 thin films of varying thickness: Blocking layer model

Cited by 324 publications

References 18 publications

Coercive fields in ultrathin BaTiO3 capacitors

Coercive fields in ultrathin BaTiO3 capacitors

Fatigue effect in ferroelectric crystals: Growth of the frozen domains

Thickness dependence of intrinsic dielectric response and apparent interfacial capacitance in ferroelectric thin films

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