Effects of strain gradient on charge offsets and pyroelectric properties of ferroelectric thin films

Zheng, Yue; Wang, Biao; Woo, C.H.

doi:10.1063/1.2335369

Cited by 24 publications

(22 citation statements)

References 20 publications

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“…In this work, the critical thickness of the interface dislocation generation is about 4 nm when ferroelectric is in paraelectric state, the calculated dislocation separations for the 10, 20 and 50 nm-thick films are, respectively, $18, $15 and $13 nm. We must note that the interface dislocation density and critical thickness of the interface dislocations generation should also be determined by the polarization in ferroelectric thin film (Wang et al, 2003;Zheng et al, 2006c). In this work, we only assume that no additional dislocations form during ferroelectric phase transition.…”

Section: Article In Pressmentioning

confidence: 99%

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Effects of interface dislocations on properties of ferroelectric thin films

Zheng

Wang

Woo

2007

Journal of the Mechanics and Physics of Solids

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Section: Article In Pressmentioning

confidence: 99%

“…When surface effects are negligible, qP=qz ¼ 0 at z ¼ 0 and h, corresponding to extrapolation lengths of d 0 ¼ d L ! 1 (Zheng et al, 2006c). The mechanical boundary conditions for the ferroelectric thin film are taken as: the ''upper'' surface is traction-free and the interface is determined by the interface dislocation.…”

Section: Article In Pressmentioning

confidence: 99%

Effects of interface dislocations on properties of ferroelectric thin films

Zheng

Wang

Woo

2007

Journal of the Mechanics and Physics of Solids

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“…7,8,[20][21][22][23][24] Prior work also shows that the pyroelectric properties of FE thin films can be optimized through engineering misfit and thermal strains. 14,19,25,26 For example, theoretical studies of barium strontium titanate (Ba x Sr 1-x TiO 3 , BST) films on Si and sapphire substrates indicate that the pyroelectric response of these films may vary with film composition, the substrate material, and the processing temperature. 6,14 Lead zirconate titanate [Pb(Zr x Ti 1-x O) 3 , (PZT x:1-x)] thin films with x 0.5 are of particular interest for IR devices due to their relatively large bulk pyroelectric properties at room temperature (RT ¼ 25 C).…”

Section: Introductionmentioning

confidence: 99%

Pyroelectric response of lead zirconate titanate thin films on silicon: Effect of thermal stresses

Kesim

Zhang

Trolier-McKinstry

et al. 2013

Journal of Applied Physics

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Author(s)Kesim, M. T.; Zhang, J.; Trolier-McKinstry, S.; Mantese, J. V.;Whatmore, Roger W.; Alpay, S. P. Ferroelectric lead zirconate titanate [Pb(Zr x Ti 1-x O) 3 , (PZT x:1-x)] has received considerable interest for applications related to uncooled infrared devices due to its large pyroelectric figures of merit near room temperature, and the fact that such devices are inherently ac coupled, allowing for simplified image post processing. For ferroelectric films made by industry-standard deposition techniques, stresses develop in the PZT layer upon cooling from the processing/growth temperature due to thermal mismatch between the film and the substrate. In this study, we use a non-linear thermodynamic model to investigate the pyroelectric properties of polycrystalline PZT thin films for five different compositions (PZT 40:60, PZT 30:70, PZT 20:80, PZT 10:90, PZT 0:100) on silicon as a function of processing temperature (25-800 C). It is shown that the in-plane thermal stresses in PZT thin films alter the out-of-plane polarization and the ferroelectric phase transformation temperature, with profound effect on the pyroelectric properties. PZT 30:70 is found to have the largest pyroelectric coefficient (0.042 lC cm À2 C Publication date 2013 Original citation À1, comparable to bulk values) at a growth temperature of 550 C; typical to what is currently used for many deposition processes. Our results indicate that it is possible to optimize the pyroelectric response of PZT thin films by adjusting the Ti composition and the processing temperature, thereby, enabling the tailoring of material properties for optimization relative to a specific deposition process. V C 2013 AIP Publishing LLC. [http://dx

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“…In the absence of an applied electric field ͑E ext =0͒, optimizing the total free energy with respect to the polarization field yields the Euler-Lagrange equation ␦F / ␦P = 0, through which the stationary values of P can be solved. [10][11][12][13][14] In the present analysis, the rod is assumed to be sufficiently thick so that effects of lattice relaxation on all surfaces of the rod can be neglected. The boundary conditions are assumed to satisfy ‫ץ‬P / ‫ץ‬z =0 at z = 0 and z = h, corresponding to a complete charge compensation 1 on the interface between the ferroelectric and the substrates.…”

Section: Used a Generalizedmentioning

confidence: 99%

Controlling dielectric and pyroelectric properties of compositionally graded ferroelectric rods by an applied pressure

Zheng

Woo

Wang

2007

Journal of Applied Physics

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The polarization, charge offset, dielectric, and pyroelectric properties of a compositionally graded ferroelectric rod inside a high-pressure polyethylene tube are studied using a thermodynamic model based on the Landau-Ginzburg-Devonshire formulation. The calculated distribution of the polarization in the rod is nonuniform, and the corresponding charge offset, dielectric, and pyroelectric properties vary according to the applied pressure. This behavior may be used as a convenient means to control these properties for design optimization. © 2007 American Institute of Physics. ͓DOI: 10.1063/1.2736308͔The use of graded ferroelectrics is essential in many applications, such as tunable microwave devices, transpacitors, and other dielectric devices.1-9 Distribution of the polarization in these materials is asymmetric and graded, and the hysteresis loop is not centrosymmetric, but displaced along the polarization axis, giving rise to an attendant charge offset. Properties such as the effective pyroelectric response, temperature dependence of the dielectric behavior, etc.1,3vary with the degree of asymmetry. Graded ferroic material systems studied recently are not restricted to cases where the gradient is in the composition, but include also those in which gradients also exist in the temperature and/or stress. Ban et al. 4 used a generalized Landau-Ginzburg model to study the offset hysteresis of polarization-graded ferroelectric materials, and found that the internal elastic energy due to the spatial variation of the self-strain tends to flatten the polarization distribution. The nonuniform polarization thus produced may then yield an asymmetrical hysteresis with "up" or "down" charge offset. Zhong et al. 1,3 investigated the pyroelectric response and dielectric permittivity of compositionally graded ferroelectric material, and found that the effective pyroelectric coefficients were directly related to the compositional gradient of the system. The effects on the polarization and charge offset of a ferroelectric due to a compression gradient normal to the substrate have also been studied. 6 Imposing a temperature gradient across ferroelectric materials, Fellberg et al. 7 observed up and down hysteresis offsets, similar to those found in polarization-graded ferroelectrics.In this article, the polarization, charge offset, dielectric, and pyroelectric properties of a compositionally graded ferroelectric rod inside a high-pressure polyethylene tube are considered. The calculations follow a thermodynamic approach based on the Landau-Ginzburg-Devonshire ͑LGD͒ model. The results are used to speculate on the feasibility of design optimization by adjusting the applied pressure.We consider a rod of compositionally graded ferroelectric ͑CGFR͒ material with radius R and height h, sandwiched between electrodes at both ends, and placed inside a highpressure polyethylene ͑HPPE͒ tube.8 A stiff steel cylindrical housing ͑SH͒ contains the HPPE tube and CGF rod. Moreover, two thin electrodes were sputter-deposited onto the surfaces perpe...

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Effects of strain gradient on charge offsets and pyroelectric properties of ferroelectric thin films

Cited by 24 publications

References 20 publications

Effects of interface dislocations on properties of ferroelectric thin films

Effects of interface dislocations on properties of ferroelectric thin films

Pyroelectric response of lead zirconate titanate thin films on silicon: Effect of thermal stresses

Controlling dielectric and pyroelectric properties of compositionally graded ferroelectric rods by an applied pressure

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