Your search keyword '"Buixaderas E"' showing total 8 results

1. Data publication: Unusual dynamics of the ferroelectric phase transition in K1−xLixTaO3 crystals

Author

Nuzhnyy, D., Bovtun, V., Buixaderas, E., Petzelt, J., Savinov, M., Kempa, M., Paściak, M., Rafalovskyi, I., Chelod Paingad, V., Kužel, P., Kamba, S., Repček, D., Pashkin, O., Trepakov, V. A., and Trybuła, Z.

Subjects

second harmonic generation, THz spectroscopy

Abstract

SHG temperature dependence and dielectric spectroscopy data on KLT measured by A. Pashkin

Published

2022

2. Unusual dynamics of the ferroelectric phase transition in K1−xLixTaO3 crystals

Author

Nuzhnyy, D., Bovtun, V., Buixaderas, E., Petzelt, J., Savinov, M., Kempa, M., Paściak, M., Rafalovskyi, I., Chelod Paingad, V., Kužel, P., Kamba, S., Repček, D., Pashkin, O., Trepakov, V. A., and Trybuła, Z.

Abstract

K1−xLixTaO3 (x=0.043, 0.08) crystals, characterized by pyroelectric current with calculated spontaneous polarization and zero-field second-harmonic generation, have been studied by broadband dielectric spectroscopy, including time-domain terahertz transmission and infrared (IR) reflectivity, and by polarized Raman spectroscopy in the 10–300 K temperature range. This multiexperimental approach has proven the percolative nature of the ferroelectric (FE) transition at low temperatures and demonstrated that the FE phase is inherently inhomogeneous and displays coexistence of FE and relaxor regions. Thanks to the very broad frequency range studied (from 1 Hz to 20 THz), the relevant excitations were identified and fitted in the dielectric response of both crystals: three relaxations, a central mode (CM), and a soft mode (SM) that splits into three components on cooling. Two Cole-Cole relaxations (assigned to flipping of polar nanoregions around the Li+ ions by π/2 and π, in agreement with the known literature), thermally activated below ∼150K, but staying in the gigahertz range at higher temperatures, do not show any frequency anomaly at the FE transition and are therefore related to the non-FE parts of the sample volume. A third thermally activated relaxation of unusually slow dynamics was revealed at low frequencies and preliminary assigned to an expected critical relaxation connected with the percolative nature of the FE phase transition. The IR SM, which undergoes much less softening than in the undoped KTaO3, splits into three components below the FE transition. Two higher-frequency components correspond to the FE volume part of the crystals assigned to the split A1 and E modes due to the cubic-tetragonal transition. The third low-frequency component is assigned to the non-FE (relaxor) volume part. Our assignment was confirmed by modeling the terahertz-IR response of the SM using the Bruggeman model within the effective medium approach. Below the SM response, an additional CM in the 1011Hz range in the whole temperature range is inferred from the fits.

Published

2022

3. Local structure of relaxor ferroelectric Sr$_x$Ba$_{1-x}$Nb$_2$O$_6$ from pair distribution function analysis

Author

Paściak, M., Ondrejkovic, P., Vanek, P., Drahokoupil, J., Steciuk, G., Palatinus, L., Welberry, T. R., Kulda, J., Fischer, H. E., Hlinka, J., and Buixaderas, E.

Subjects

Condensed Matter - Materials Science, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

Neutron pair distribution function analysis and first principles calculations have been employed to study short-range correlations in heavily disordered dielectric material Sr$_x$Ba$_{1-x}$Nb$_2$O$_6$ ($x=0.35, 0.5$ and 0.61). The combination of methods has been fruitful in pinpointing main local-structure features, their temperature behaviour and interrelation. A rather complex system of tilts is found to be both temperature and Sr-content sensitive with the biggest tilt magnitudes reached at low temperatures and high $x$. Relative Nb-O$_6$ displacements, directly responsible for material's ferroelectric properties, are shown to be distinct in two octahedra sub-systems with different freezing temperatures and disparate levels of deviation from macroscopic polarization direction. Intrinsic disorder caused by Sr, Ba and vacancy distribution is found to introduce local strain to the structure and directly influence octahedra tilting. These findings establish a new atomistic picture of the local structure -- property relationship in Sr$_x$Ba$_{1-x}$Nb$_2$O$_6$.

Published

2018

4. PLD prepared bioactive BaTiO₃ films on TiNb implants

Author

Jelínek, M. (Miroslav), Vaněk, P. (Přemysl), Tolde, Z. (Zdeněk), Buixaderas, E. (Elena), Kocourek, T. (Tomáš), Studnička, V. (Václav), Drahokoupil, J. (Jan), Petzelt, J. . (Jan ), Remsa, J. (Jan), and Tyunina, M. (Marina)

Subjects

thin films, BaTiO₃, implants, PLD, TiNb, ferroelectricity

Abstract

BaTiO₃ (BTO) layers were deposited by pulsed laser deposition (PLD) on TiNb, Pt/TiNb, Si (100), and fused silica substrates using various deposition conditions. Polycrystalline BTO with sizes of crystallites in the range from 90 nm to 160 nm was obtained at elevated substrate temperatures of (600 °C–700 °C). With increasing deposition temperature above 700 °C the formation of unwanted rutile phase prevented the growth of perovskite ferroelectric BTO. Concurrently, with decreasing substrate temperature below 500 °C, amorphous films were formed. Post-deposition annealing of the amorphous deposits allowed obtaining perovskite BTO. Using a very thin Pt interlayer between the BTO films and TiNb substrate enabled high-temperature growth of preferentially oriented BTO. Raman spectroscopy and electrical characterization indicated polar ferroelectric behaviour of the BTO films.

Published

2017

5. Lattice dynamics and dielectric response of undoped, soft and hard PbZr0.42Ti0.58O3

Author

Buixaderas, E., Nuzhnyy, D., Vanek, P., Gregora, I., Petzelt, J., Porokhonskyy, V., Jin, Li, and Damjanovic, D.

Subjects

Ferroelectrics, Condensed Matter::Materials Science, Ceramics, Condensed Matter::Superconductivity, THz spectroscopy, phonons, Condensed Matter::Strongly Correlated Electrons, dielectric response, infrared and Raman spectroscopy, soft and hard PZT ceramics

Abstract

In this study, ceramic samples of lead zirconate titanate Pb(Zr0.42Ti0.58)O3 (PZT 42/58) doped with Fe (hard) and Nb (soft) were studied by Raman, infrared (IR) and THz spectroscopy in the temperature range from 900 to 20 K. From the evaluation of the IR and Raman phonons in undoped ceramics, we conclude that tetragonal PZT ceramics undergo a low-temperature phase transition to a tilted phase, revealed by anomalies in phonon parameters and the appearance of new modes. Doped samples also presented similar behaviour. The main differences between undoped and doped ceramics lie in the dielectric behaviour below phonon frequency range, where several mechanisms appear: a soft central mode (CM) located near 1 THz and two relaxations in the GHz range. Both types of doping raise the permittivity values below the phonon frequencies, not only increasing the dielectric contribution of the CM, but also modifying the dielectric response near the GHz range. Soft ceramics show higher permittivity with logarithmic increase at low frequencies, corresponding to an almost frequency-independent value of the dielectric losses below 0.1 GHz.

6. Compositional behavior of Raman-active phonons in Pb(Zr,Ti)O3 ceramics

Author

Buixaderas, E., Gregora, I., Savinov, M., Hlinka, J., Jin, Li, Damjanovic, Dragan, and Malic, B.

Subjects

Condensed Matter::Materials Science

Abstract

A systematic study of the Raman spectra of Pb(Zr1-xTix)O-3 (PZT) ceramics has been performed in a broad temperature interval (10-600 K) and a broad Ti/Zr concentration range around the morphotropic phase boundary (x = 0.25-0.70). The number of the spectral components was estimated by a standard fitting procedure with damped harmonic oscillators as well as by counting the number of peaks and shoulders with the help of a purposely designed mathematical analysis based on frequency derivatives of the Raman spectra. This last method proves to be very useful to study Raman spectra of disordered materials. For the case of PZT, the comparison with the Raman modes of PbTiO3 allows us to assign the phonon bands on both sides of the morphotropic phase boundary, and the crossover from the tetragonal to rhombohedral phase spectra is clearly visible. However, there are no indications of a systematic splitting of the E-symmetry modes into monoclinic A'-A '' doublets in the morphotropic samples. Detailed adjusting of the response function to the spectrum requires to assume additional Raman-active modes, but this holds for a much broader concentration range than that of the anticipated monoclinic phase. In particular, the lowest frequency transverse optic mode of E-symmetry (soft mode of the ferroelectric phase transition) is split into two components, a THz frequency anharmonic (central modelike) component and a resonant component (at omega similar to 80 cm(-1)), both related to the same normal coordinate. The additional Raman band appearing in this frequency range (omega similar to 65 cm(-1)) at low temperatures is rather associated with the antiphase tilt vibrations of the oxygen octahedra.

7. Microwave dielectric properties of the Ag1-xLixNbO3 (x = 0 ÷ 0.06) ceramics

Author

Porokhonskyy, V., Bovtun, V., Kamba, S., Buixaderas, E., Petzelt, J., Kania, A., Seweryn Miga, and Yakimenko, Y.

8. Polar lattice vibrations and phase transition dynamics in Pb(Zr1-xTix)O-3

Author

Buixaderas, E., Nuzhnyy, D., Petzelt, J., Jin, Li, and Damjanovic, D.

Subjects

Ferroelectrics, Condensed Matter::Materials Science, Ceramics, Pbtio3, Lead-Zirconate-Titanate, Infrared Dielectric Response, Boundary, Soft, Central-Mode, Raman, Spectroscopy

Abstract

Infrared (IR) reflectivity spectra of nominally pure Pb(Zr1-xTix)O-3 ceramics with different Ti/Zr concentration (x = 0.42-0.58) were measured and evaluated, along with the time-domain terahertz transmittance spectra in the temperature range 10 K-900 K. The temperature dependence of the low-frequency vibrations, related to Pb atoms, was analyzed in terms of two overdamped modes-a soft mode and an anharmonic hopping central mode-in the cubic and high-temperature ferroelectric phase and three main vibrations in the low-temperature ferroelectric phase with the doubled unit cell: two E-symmetry modes (the soft mode and a mode corresponding to antiphase vibrations of neighboring Pb atoms in the terahertz range) and the antiferrodistortive mode producing the antiphase tilts of the oxygen octahedra. The last bare mode is not IR active, but it becomes activated by coupling with the soft mode. As predicted by theory, the intrinsic permittivity of Pb(Zr1-xTix)O-3 has a maximum at the morphotropic phase boundary, although this represents just a small percentage of the total permittivity at lower frequencies. Its maximum is linked to the softening of the anharmonic vibrations of Pb ions, perpendicular to the polarization, and shifts from x = 0.48 at room temperature to x = 0.52 at 10 K.