Search

Your search keyword '"Nuzhnyy, D."' showing total 219 results
Start Over Author "Nuzhnyy, D."
219 results on '"Nuzhnyy, D."'

1. Coexisting polarization mechanisms in ferroelectric uniaxial tetragonal tungsten bronze Ca_0.3Ba_0.7Nb_2O_6

Author

Buixaderas, E., Svirskas, Š., Kadlec, C., Savinov, M., Lapienytė, P., R., Anirudh K., Milesi-Brault, C., Nuzhnyy, D., and Dec, J.

Subjects
Condensed Matter - Materials Science
Abstract

Using a broad band dielectric spectroscopy approach (1 to 10^14 Hz) we prove that the tungsten bronze Ca0.3Ba0.7Nb2O6 (CBN-30) displays a ferroelectric phase transition of mixed displacive and order-disorder character, and its paraelectric phase does not show traces of relaxor behaviour but precursor effects as polar fluctuations below about 550 K. The analysis of the sub-MHz dielectric response together with infrared and Raman spectroscopy reveals that simultaneous polarization mechanisms are responsible for the phase transition. The comparison of the excitations found in CBN-30 with those of (Sr,Ba)Nb2O6 reveals that these mechanisms are congruous, although in CBN-30 the main relaxation process behaves differently due to the different domain structure. The excitations are phenomenologically assigned to phonons, to an anharmonic vibration of cationic origin which plays the role of a soft central mode, and to a relaxation in the GHz range probably due to polarization fluctuations of nanometric size which carries the main part of the permittivity and splits below TC into several weaker excitations with different polarization correlation lengths. The overall dielectric response is therefore explained by the coexistence of several excitations with different thermal behaviors, corroborating the complexity of the tetragonal tungsten bronze structures., Comment: 21 pages, 7 figures, 1 table

Published
2024

3. Infrared, terahertz, and microwave spectroscopy of the soft and central modes in Pb(Mg1/3Nb2/3)O3

Author

Nuzhnyy, D., Petzelt, J., Bovtun, V., Kempa, M., Kamba, S., Hlinka, J., and Hehlen, B.

Subjects
Condensed Matter - Materials Science
Abstract

From the new infrared (IR) reflectivity and time-domain terahertz (THz) spectra combined with available high-frequency dielectric data above the MHz range in a broad temperature range of 10-900 K, a full picture of the soft and central mode behavior in the classical relaxor ferroelectric Pb(Mg1/3Nb2/3)O3 (PMN) is suggested. A detailed comparison is given with the recent hyper-Raman spectroscopy data (Phys. Rev. Lett. 117, 155501 (2016)), and also with other available experiments based on inelastic light and neutron scattering. The closest agreement is with the hyper-Raman data, both techniques yield the same number of soft-mode components and the same high-temperature softening towards the temperature T* ~ 400 K. In addition to evaluation of the IR-THz data using fitting with standard factorized form of the dielectric function, we performed a successful fitting of the same data using the effective medium approach (EMA), originally based on the assumption that the mesoscopic structure of PMN consists of randomly oriented uniaxially anisotropic polar nanodomains (PNDs) with somewhat harder TO polar modes in the direction along the local PND dipole (Phys. Rev. Lett. 96, 027601 (2006)). Evaluation using the Bruggeman EMA modelling has been successfully applied in the entire investigated temperature range. These results suggest that the response perpendicular to the local dipole moment, at high temperatures induced by random fields rather than PNDs, undergoes a classical softening from high temperatures with permittivity obeying the Curie-Weiss law, eps_per = C/(T-Tc), C = 1.7 x 10^5 K and Tc = 380 K. Below the Burns temperature ~620 K, a GHz relaxation ascribed to flipping of the PNDs emerges from the soft mode response, slows down and broadens, remaining quite strong towards the cryogenic temperatures, where it can be assigned to fluctuations of the PND boundaries.

Published
2017
Full Text
View/download PDF

4. Anomalous multi-order Raman scattering in LaMnO_3: a signature of a quantum lattice effect in a Jahn-Teller crystal

Author

Kovaleva, N. N., Kusmartseva, O. E., Kugel, K. I., Maksimov, A. A., Nuzhnyy, D., Balbashov, A. M., Demikhov, E. I., Dejneka, A., Trepakov, V. A., Kusmartsev, F. V., and Stoneham, A. M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The multi-order Raman scattering is studied up to a fourth order for a detwinned LaMnO_3 crystal. Based on a comprehensive data analysis of the polarisation-dependent Raman spectra, we show that the anomalous features in the multi-order scattering could be the sidebands on the low-energy mode at about 25 cm-1. We suggest that this low-energy mode stems from the tunneling transition between the potential energy minima arising near the Jahn-Teller Mn3+ ion due to the lattice anharmonicity, and the multi-order scattering is activated by this low-energy electronic motion. The sidebands are dominated by the oxygen contribution to the phonon density-of-states, however, there is an admixture of an additional component, which may arise from coupling between the low-energy electronic motion and the vibrational modes., Comment: 12 pages, 4 figures

Published
2014
Full Text
View/download PDF

5. Broadband dielectric spectroscopy of Ba(Zr,Ti)O3: dynamics of relaxors and diffuse ferroelectrics

Author

Petzelt, J., Nuzhnyy, D., Savinov, M., Bovtun, V., Kempa, M., Ostapchuk, T., Hlinka, J., Canu, G., and Buscaglia, V.

Subjects
Condensed Matter - Materials Science
Abstract

Broadband dielectric spectroscopy from Hz up to the infrared (IR) range and temperature interval 10-300 K was carried out for xBaZrO3-(1-x)BaTiO3 (BZT-x, x = 0.6, 0.7, 0.8) solid solution ceramics and compared with similar studies for x = 0, 0.2, 0.4, 1 ceramics published recently (Phys. Rev. B 86, 014106 (2012)). Rather complex IR spectra without appreciable mode softening are ascribed to Last-Slater transverse optic (TO) phonon eigenvector mixing and possible two-mode mixed crystal behavior. Fitting of the complete spectral range requires a relaxation in the 100 GHz range for all the samples. Below 1 GHz another relaxation appears, which is thermally activated and obeys the same Arrhenius behavior for all the relaxor BZT samples. The frequently reported Vogel-Fulcher behavior in BZT relaxors is shown to be an artifact of the evaluation from the permittivity or loss vs. temperature dependences instead of its evaluation from loss vs. frequency maxima. The relaxation is assigned to local hopping of the off-centered Ti4+ ions in the frozen BTO clusters, whose size is rather small and cannot grow on cooling. Therefore BZT is to be considered as a dipolar glass rather than relaxor ferroelectric., Comment: subm. to Ferroelectrics

Published
2013

6. Absence of ferroelectricity in BiMnO3 ceramics

Author

Goian, V., Kamba, S., Savinov, M., Nuzhnyy, D., Borodavka, F., Vanek, P., and Belik, A. A.

Subjects
Condensed Matter - Materials Science
Abstract

We performed factor-group analysis of all phonons in possible monoclinic C2/c and C2 structures of BiMnO3 and compared it with our experimental infrared and Raman spectra. We conclude that the crystal structure is centrosymmetric C2/c in the whole investigated temperature range from 10 to 550 K, therefore BiMnO3 cannot be ferroelectric. We revealed a dielectric relaxation in THz spectra above the structural phase transition taking place at T_C1=475 K giving evidence in strong lattice anharmonicity and a large dynamical disorder of Bi cations above T_C1. Step-like dielectric anomaly observed at T_C1 in THz permittivity reminds antiferroelectric phase transition. Nevertheless, the low-temperature dielectric studies did not reveal any antiferroelectric or ferroelectric hysteresis loop. Our experimental results support theoretical paper of P. Baettig et al. (J. Am. Chem. Soc. 129, 9854 (2007)) claiming that BiMnO3 is not multiferroic, but only antipolar ferromagnet., Comment: accepted to JAP

Published
2012
Full Text
View/download PDF

7. Magnetodielectric coupling and phonon properties of compressively strained EuTiO3 thin films deposited on LSAT

Author

Kamba, S., Goian, V., Orlita, M., Nuzhnyy, D., Lee, J. H., Schlom, D. G., Rushchanskii, K., Lezaic, M., Birol, T., Fennie, C. J., Gemeiner, P., Dkhil, B., Bovtun, V., Kempa, M., Hlinka, J., and Petzelt, J.

Subjects
Condensed Matter - Materials Science
Abstract

Compressively strained epitaxial (001) EuTiO3 thin films of tetragonal symmetry have been deposited on (001) (LaAlO3)_0.29-(SrAl_{1/2}Ta_{1/2}O3)_0.71 (LSAT) substrates by reactive molecular-beam epitaxy. Enhancement of the Neel temperature by 1 K with 0.9% compressive strain was revealed. The polar phonons ofthe films have been investigated as a function of temperature and magnetic field by means of infrared reflectance spectroscopy. All three infrared active phonons show strongly stiffened frequencies compared to bulk EuTiO3 in accordance with first principles calculations. The phonon frequencies exhibit gradual softening on cooling leading to an increase in static permittivity. A new polar phonon with frequency near the TO1 soft mode was detected below 150 K. The new mode coupled with the TO1 mode was assigned as the optical phonon from the Brillouin zone edge, which is activated in infrared spectra due to an antiferrodistortive phase transition and due to simultaneous presence of polar and/or magnetic nanoclusters. In the antiferromagnetic phase we have observed a remarkable softening of the lowest-frequency polar phonon under an applied magnetic field, which qualitatively agrees with first principles calculations. This demonstrates the strong spin-phonon coupling in EuTiO3, which is responsible for the pronounced dependence of its static permittivity on magnetic field in the antiferromagnetic phase., Comment: Submitted to Phys. Rev. B

Published
2012
Full Text
View/download PDF

8. High-frequency dielectric spectroscopy of batio3 core - silica shell nanocomposites: Problem of interdiffusion

Author

Nuzhnyy, D., Petzelt, J., Bovtun, V., Kempa, M., Savinov, M., Elissalde, C., Chung, U-C., Michau, D., Maglione, M., and Estournes, C.

Subjects
Condensed Matter - Materials Science
Abstract

Three types of BaTiO3 core - amorphous nano-shell composite ceramics were processed from the same core-shell powder by standard sintering, spark-plasma sintering and two-step sintering techniques and characterized by XRD, HRSEM and broad-band dielectric spectroscopy in the frequency range 10^3 - 10^13 Hz including the THz and IR range. The samples differed by porosity and by the amount of interdiffusion from the cores to shells, in correlation with their increasing porosity. The dielectric spectra were also calculated using suitable models based on effective medium approximation. The measurements revealed a strong dielectric dispersion below the THz range, which cannot be explained by the modeling, and whose strength was in correlation with the degree of interdiffusion. We assigned it to an effect of the interdiffusion layers, giving rise to a strong interfacial polarization. It appears that the high-frequency dielectric spectroscopy is an extremely sensitive tool for detection of any gradient layers and sample inhomogeneities even in dielectric materials with negligible conductivity.

Published
2011
Full Text
View/download PDF

9. Terahertz and Infrared Studies of Antiferroelectric Phase Transition in Multiferroic Bi_0.85Nd_0.15FeO_3

Author

Goian, V., Kamba, S., Greicius, S., Nuzhnyy, D., Karimi, S., and Reaney, I. M.

Subjects
Condensed Matter - Materials Science
Abstract

High-frequency dielectric studies of Bi_0.85Nd_0.15FeO_3 ceramics performed betweeen 100 and 900 K reveal hardening of most polar phonons on cooling below antiferroelectric phase transition, which occurs near 600 K. Moreover, a strong THz dielectric relaxation is seen in paraelectric phase. Its relaxation frequency softens on cooling towards Tc ~ 600 K, its dielectric strength simultaneously decreases and finaly the relaxation disappears from the spectra below 450 K. Both phonon and dielectric relaxation behavior is responsible for a decrease in the dielectric permittivity at the antiferroelectric phase transition. Origin of unusual strong THz dielectric relaxation in paraelectric phase is discussed. Bi_0.85Nd_0.15FeO_3 structrure lies on the phase boundary between polar rhombohedral and non-polar orthorhombic phase and owing to this the polarization rotation and polarization extension can enhance the piezoelectric response of this system. Similarities and discrepancies with lead-based piezoelectric perovskites, exhibiting morphotrophic phase boundary between two ferroelectric phases, are discussed., Comment: JAP, in print

Published
2011
Full Text
View/download PDF

10. THz and infrared studies of multiferroic hexagonal Y_(1-x)Eu_xMnO_3 (x=0 - 0.2) ceramics

Author

Goian, V., Kamba, S., Kadlec, C., Nuzhnyy, D., Kuzel, P., Moreira, J. Agostinho, Almeida, A., and Tavares, P. B.

Subjects
Condensed Matter - Materials Science
Abstract

We report an investigation of hexagonal Y_(1-x)Eu_xMnO_3 ceramics with x=0, 0.1 and 0.2 using infrared and THz spectroscopies in the temperature range between 5 and 900 K. The temperature dependence of the THz permittivity reveals a kink near the antiferromagnetic phase transition temperature T_N ~ 70 K giving evidence of a strong spin-lattice coupling. Below T_N two absorption peaks were revealed in the THz spectra close to 43 and 73 cm-1. While the first peak corresponds to a sharp antiferromagnetic resonance exhibiting softening on heating towards TN, the second one may be attributed to an impurity mode or a multiphonon absorption peak. High-temperature THz spectra measured up to 900 K reveal only small gradual increase of the permittivity in agreement with a weak phonon softening observed in the infrared reflectance spectra upon heating. This corresponds to an improper ferroelectric character of the phase transition proposed from first principle calculations by Fennie and Rabe [Phys. Rev. B 72 (2005), pp. 100103(R)]., Comment: Phase Transitions, accepted

Published
2010
Full Text
View/download PDF

11. First-principles design and subsequent synthesis of a material to search for the permanent electric dipole moment of the electron

Author

Rushchanskii, K. Z., Kamba, S., Goian, V., Vanvek, P., Savinov, M., Provlevska, J., Nuzhnyy, D., Knivsek, K., Laufek, F., Eckel, S., Lamoreaux, S. K., Sushkov, A. O., Lezaic, M., and Spaldin, N. A.

Subjects
Condensed Matter - Materials Science
Abstract

We describe the first-principles design and subsequent synthesis of a new material with the specific functionalities required for a solid-state-based search for the permanent electric dipole moment of the electron. We show computationally that perovskite-structure europium barium titanate should exhibit the required large and pressure-dependent ferroelectric polarization, local magnetic moments, and absence of magnetic ordering even at liquid helium temperature. Subsequent synthesis and characterization of Eu$_{0.5}$Ba$_{0.5}$TiO$_3$ ceramics confirm the predicted desirable properties., Comment: Nature Materials, in press

Published
2010
Full Text
View/download PDF

12. Polar phonons in some compressively stressed epitaxial and polycrystalline SrTiO3 thin films

Author

Nuzhnyy, D., Petzelt, J., Kamba, S., Yamada, T., Tyunina, M., Tagantsev, A. K., Levoska, J., and Setter, N.

Subjects
Condensed Matter - Materials Science
Abstract

Several SrTiO3 (STO) thin films without electrodes processed by pulsed laser deposition, of thicknesses down to 40 nm, were studied using infrared transmission and reflection spectroscopy. The complex dielectric responses of polar phonon modes, particularly ferroelectric soft mode, in the films were determined quantitatively. The compressed epitaxial STO films on (100) La0.18Sr0.82Al0.59-Ta0.41O3 substrates (strain 0.9%) show strongly stiffened phonon responses, whereas the soft mode in polycrystalline film on (0001) sapphire substrate shows a strong broadening due to grain boundaries and/or other inhomogeneities and defects. The stiffened soft mode is responsible for a much lower static permittivity in the plane of the compressed film than in the bulk samples., Comment: 11 pages

Published
2009
Full Text
View/download PDF

13. Grain Size Influence on Dynamics of Polar Nanoclusters in PMN-35%PT Ceramics: Broadband Dielectric and Infrared Spectra

Author

Bovtun, V., Kamba, S., Veljko, S., Nuzhnyy, D., Kroupa, J., Savinov, M., Vanek, P., Petzelt, J., Holc, J., Kosec, M., Amorin, H., and Alguero, M.

Subjects
Condensed Matter - Materials Science
Abstract

Dielectric response e*(f,T) and polar phonon spectra of coarse grain (grain size ~ 4 mkm) and fine grain (grain size ~ 150 nm) ceramics of PbMg_(1/3)Nb_(2/3)O3-35%PbTiO3 were investigated at temperatures 10 - 900 K. e*(f,T) in coarse-grain ceramics exhibits relaxor behavior at high temperatures and a sharp anomaly at the ferroelectric phase transition. The fine-grain ceramics exhibit mainly relaxor ferroelectric behavior with a smaller dielectric constant. The difference is explained by different relaxational dynamics of polar nanoclusters, which appear to be more stabilized at high temperatures in the fine-grain ceramics by pinning at grain boundaries. Below Tc, the growth of ferroelectric domains is suppressed in fine-grain ceramics as supported also by a second harmonic generation. On the other hand, polar phonon frequencies and their temperature dependences are almost independent of the grain size, but the selection rules for the cubic symmetry are not obeyed and all phonons are split due to a locally broken symmetry by polar nanoregions and chemical disorder. The lowest-frequency polar phonon undergoes partial softening down to ~ 0.1 THz near Tc = 440 K in both ceramics, but the dielectric anomaly is caused predominantly by flipping and breathing of polar nanoclusters. Due to contribution of both the soft phonon mode and dielectric relaxations into the dielectric constant, the ferroelectric phase transition, which corresponds to the percolation threshold of the polar nanoregions into macroscopic domains, can be considered as a special case of crossover between the displacive and order-disorder type., Comment: subm. to PRB

Published
2008
Full Text
View/download PDF

14. Infrared and magnetic characterization of the multiferroic Bi2FeCrO6 thin films in a broad temperature range

Author

Kamba, S., Nuzhnyy, D., Nechache, R., Zaveta, K., Niznansky, D., Santava, E., Harnagea, C., and Pignolet, A.

Subjects
Condensed Matter - Materials Science
Abstract

Infrared reflectance spectra of an epitaxial Bi2FeCrO6 thin film prepared by pulsed laser deposition on LaAlO3 substrate were recorded between 10 and 900 K. No evidence for a phase transition to the paraelectric phase was observed, but some phonon anomalies were revealed near 600 K. Most of the polar modes exhibit only a gradual softening, which results in a continuous increase of the static permittivity on heating. It indicates that the ferroelectric phase transition should occur somewhere above 900 K. Magnetic measurements performed up to 1000 K, revealed a possible magnetic phase transition between 600 and 800 K, but the exact critical temperature cannot be determined due to a strong diamagnetic signal from the substrate. Nevertheless, our experimental data show that the B-site ordered Bi2FeCrO6 is one of the rare high-temperature multiferroics., Comment: subm. to PRB

Published
2007
Full Text
View/download PDF

15. Dielectric relaxation and polar phonon softening in relaxor ferroelectric PbMg_(1/3)Ta_(2/3)O_3

Author

Kamba, S., Nuzhnyy, D., Veljko, S., Bovtun, V., Petzelt, J., Wang, Y. L., Levoska, J., Tyunina, M., Macutkevic, J., Setter, N., and Banys, J.

Subjects
Condensed Matter - Materials Science
Abstract

Relaxor ferroelectric PbMg_1/3Ta_2/3O_3 ceramics and thin films were investigated by means of broad-band dielectric, time-domain terahertz (THz) and Fourier-transform infrared (IR) spectroscopy in the frequency range 100 Hz - 90 THz at temperatures 100 - 490 K, the THz and IR spectra were studied from 20 to 900K. Diffused and strongly temperature dependent peak in the complex permittivity is caused by a dielectric relaxation due to the dynamics of polar clusters. The relaxation appears below Burns temperature T_d in the THz range, slows down on cooling through the microwave and MHz range and anomalously broadens. The shortest and longest relaxation times of the distribution of relaxation times follow Arrhenius and Vogel-Fulcher law, respectively. The degree of B-site order has only a small influence on the parameters of the dielectric relaxation and almost no influence on the phonon parameters. Below T_m ~ 180K, the distribution of relaxation frequencies becomes broader than our experimental spectral range and frequency independent dielectric losses develop below 100 GHz in the spectra. Although the macroscopic crystal structure is cubic, IR spectra give evidence about the lower local symmetry which can be assigned to the presence of polar clusters below T_d. Infrared spectra above T_d still reveal more modes than predicted by selection rules in the paraelectric phase of the Fm-3m space group so that we suggest selection rules which take into account chemical inhomogeneity in the beta''-perovskite sublattice., Comment: subm. to J. Appl. Phys

Published
2007
Full Text
View/download PDF

16. Magnetodielectric effect and optic soft mode behaviour in quantum paraelectric EuTiO3 ceramics

Author

Kamba, S., Nuzhnyy, D., Vanek, P., Savinov, M., Knizek, K., Shen, Z., Santava, E., Maca, K., Sadowski, M., and Petzelt, J.

Subjects
Condensed Matter - Materials Science
Abstract

Infrared reflectivity and time-domain terahertz transmission spectra of EuTiO3 ceramics revealed a polar optic phonon at 6 - 300K, whose softening is fully responsible for the recently observed quantum paraelectric behaviour. Even if our EuTiO3 ceramics show lower permittivity than the single crystal due to a reduced density and/or small amount of secondary pyrochlore Eu2Ti2O7 phase, we confirmed the magnetic field dependence of the permittivity, also slightly smaller than in single crystal. Attempt to reveal the soft phonon dependence at 1.8K on the magnetic field up to 13T remained below the accuracy of our infrared reflectivity experiment.

Published
2007
Full Text
View/download PDF

17. Quantum paraelectric behavior of pyrochlore PMN

Author

Kamba, S., Nuzhnyy, D., Denisov, S., Veljko, S., Bovtun, V., Savinov, M., Petzelt, J., Kalnberga, M., and Sternberg, A.

Subjects
Condensed Matter - Materials Science
Abstract

Pb_1.83Mg_0.29Nb_1.71O_6.39 (PMN) crystallizing in a cubic pyrochlore structure exhibits, as the first dielectrics with pyrochlore structure, typical feature of quantum paraelectrics - its permittivity continuously increases on cooling and levels off below ~ 30K, without any signature of a structural phase transition. Broad-band dielectric spectra do not show any dielectric dispersion in the real part of permittivity up to 8.8 GHz. THz and infrared spectra reveal a soft polar optic mode which is responsible for the temperature dependence of the permittivity. The leveling-off of the permittivity at low temperatures obeys the Barrett formula and the fitted vibrational zero-point energy 1/(2*k_B*T_1) corresponds to the measured soft mode frequency. The number of observed infrared phonons exceeds that predicted from the factor-group analysis which indicates that the structure is at least locally non-cubic., Comment: subm. to PRB, revised version according to referees' reports

Published
2007
Full Text
View/download PDF

18. Infrared and THz studies of polar phonons and improper magnetodielectric effect in multiferroic BFO3 ceramics

Author

Kamba, S., Nuzhnyy, D., Savinov, M., Sebek, J., Petzelt, J., Prokleska, J., Haumont, R., and Kreisel, J.

Subjects
Condensed Matter - Materials Science
Abstract

BFO3 ceramics were investigated by means of infrared reflectivity and time domain THz transmission spectroscopy at temperatures 20 - 950 K, and the magnetodielectric effect was studied at 10 - 300 K, with the magnetic field up to 9 T. Below 175 K, the sum of polar phonon contributions into the permittivity corresponds to the value of measured permittivity below 1 MHz. At higher temperatures, a giant low-frequency permittivity was observed, obviously due to the enhanced conductivity and possible Maxwell-Wagner contribution. Above 200 K the observed magnetodielectric effect is caused essentially through the combination of magnetoresistance and the Maxwell-Wagner effect, as recently predicted by Catalan (Appl. Phys. Lett. 88, 102902 (2006)). Since the magnetodielectric effect does not occur due to a coupling of polarization and magnetization as expected in magnetoferroelectrics, we call it improper magnetodielectric effect. Below 175 K the magnetodielectric effect is by several orders of magnitude lower due to the decreased conductivity. Several phonons exhibit gradual softening with increasing temperature, which explains the previously observed high-frequency permittivity increase on heating. The observed non-complete phonon softening seems to be the consequence of the first-order nature of the ferroelectric transition., Comment: subm. to PRB. revised version according to referees' reports

Published
2006
Full Text
View/download PDF

21. 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., (0000-0003-1309-6171) Pashkin, O., Trepakov, V. A., Trybuła, Z., 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., (0000-0003-1309-6171) Pashkin, O., Trepakov, V. A., and Trybuła, Z.

Abstract

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

Published
2022

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

Author

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

Published
2022
Full Text
View/download PDF

24. 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

25. Nanocomposites based on opal matrices with crystalline multiferroics of ferrothorite type

Author

Samoylovich M. I., Rinkevich A. B., Bovtun V., Belyanin А. F., Nuzhnyy D., Kempa М., Tsvetkov M., and Klescheva S. М.

Subjects
nanocomposites, meta-materials, magnetic and dielectric properties, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Optical, magnetic and dielectric properties, composition and structure of nanocomposites samples based on lattice packing SiO2 nanospheres (opal matrices) with included clusters of crystalline phase of multiferroics of ferrothorite type in interspherical nanospacing has been studied.

Published
2012

27. Оптическая спектроскопия и необычный температурный сдвиг бесфононных f – f линий люминесценции: KTaO3:Er

Author

Dejneka, A., Potucek, Z., Bryknar, Z., Nuzhnyy, D., and Laguta, V.

Abstract

Теоретические расчёты выполнены с помощью оборудования и ПО РЦ «Вычислительный центр СПбГУ». В.А.Т признателен Р.В. Юсупову и Б.З. Малкину за плодотворные обсуждения и полезные замечания.

Published
2021

28. Оптическая спектроскопия и необычный температурный сдвиг бесфононных f – f линий люминесценции: KTaO3:Er

Author

Трепаков, В. А., Скворцов, А. П., Кузнецов, В. Г., Гавриков, А. А., Dejneka, A., Potucek, Z., Bryknar, Z., Nuzhnyy, D., Laguta, V., Трепаков, В. А., Скворцов, А. П., Кузнецов, В. Г., Гавриков, А. А., Dejneka, A., Potucek, Z., Bryknar, Z., Nuzhnyy, D., and Laguta, V.

Published
2021

29. Relaxor-like behavior of lead-free Sr(sub)2LaTi(sub)2Nb(sub)3O(sub)15 ceramics with tetragonal tungsten bronze structure

Author

Bovtun, V., Savinov, M., Kamba, S., Petzelt, J., Veljko, S., Nuzhnyy, D., and Knizek, K.

Subjects
Bronze -- Structure, Lattice dynamics -- Analysis, Crystals -- Structure, Crystals -- Research, Physics
Abstract

The crystal structure and dielectric response of lead-free tetragonal tungsten bronze, Sr(sub)2LaTi(sub)2Nb(sub)3O(sub)15 (SLTN) ceramics was studied in a very broad frequency and temperature range. The results show that the ceramics have a relaxor-like behavior that can be generally explained in the framework of polar nanocluster dynamics concept, with some peculiarities in the dielectric response, relaxational and crystal lattice dynamics.

Published
2007

32. Optical spectroscopy and unusual temperature shift of f – f zero-phonon luminescence lines: KTaO3:Er.

Author

Trepakov, V. A., Skvortsov, A. P., Potucek, Z., Bryknar, Z., Nuzhnyy, D., Laguta, V., Kuznetsov, V. G., Gavrikov, A. A., and Dejneka, A.

Subjects
ELECTRON paramagnetic resonance, LUMINESCENCE, LIGHT absorption, INFRARED absorption, SINGLE crystals, OPTICAL spectroscopy, TEMPERATURE
Abstract

We present a study of KTaO3:Er (≈0.05%) single crystals based on a multifaceted approach including the use of optical absorption, far-infrared reflectivity, electron paramagnetic resonance, photoluminescence spectra, and ab initio simulations. We describe briefly the fundamental consequences of Er doping, in particular, stiffening of TO1 soft mode of KTaO3. We provide information about energy level structures controlling f – f optical transitions in Er3+, on formation of minor cubic octahedral and major orthorhombic Er3+ centers. It is revealed that the temperature shift of narrow zero-phonon emission lines is strikingly unusual being much larger than that typical for trivalent rare-earth impurities. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

33. Electrode effects in dielectric spectroscopy measurements on (Nb+In) co-doped TiO2.

Author

Crandles, D. A., Yee, S. M. M., Savinov, M., Nuzhnyy, D., Petzelt, J., Kamba, S., and Prokeš, J.

Subjects
PERMITTIVITY measurement, DIELECTRICS research, ALTERNATING currents, TITANIUM dioxide, ELECTRODES
Abstract

Recently, several papers reported the discovery of giant permittivity and low dielectric loss in (Nb+In) co-doped TiO2. A series of tests was performed which included the measurement of the frequency dependence of the dielectric permittivity and alternating current (ac) conductivity of co-doped (Nb+In)TiO2 as a function of electrode type, sample thickness, and temperature. The data suggest that the measurements are strongly affected by the electrodes. The consistency between four-contact van der Pauw direct current conductivity measurements and bulk conductivity values extracted from two-contact ac conductivity measurements suggest that the values of colossal permittivity are, at least in part, a result of Schottky barrier depletion widths that depend on electrode type and temperature. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

34. The manifestation of spin-phonon coupling in CaMnO3.

Author

Goian, V., Kamba, S., Borodavka, F., Nuzhnyy, D., Savinov, M., and Belik, A. A.

Subjects
SPIN-phonon interactions, INFRARED spectra, RAMAN spectra, ANTIFERROMAGNETISM, MAGNETIC transitions, PERMITTIVITY
Abstract

Recently predicted presence of spin-phonon coupling in the CaMnO3 is experimentally confirmed in infrared (IR), Raman and time-domain THz spectra. Most of phonon frequencies seen below 350 cm-1 exhibit significant shifts on cooling below antiferromagnetic phase transition at TN≅120 K. Moreover, several new modes activate in the IR and Raman spectra on cooling below TN. Sum of phonon contributions to static permittivity exhibits small but reliable anomaly at TN. On the other hand, the spin-phonon coupling is not manifested in temperature dependence of radio-frequency permittivity, because intrinsic permittivity is screened by extrinsic contribution from conductivity, which enhances the permittivity to giant values. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

35. Lattice dynamics and broad-band dielectric properties of multiferroic Pb(Fe1/2Nb1/2)O3 ceramics.

Author

Mackeviciute, R., Goian, V., Greicius, S., Grigalaitis, R., Nuzhnyy, D., Holc, J., Banys, J., and Kamba, S.

Subjects
DIELECTRIC properties, CERAMICS, FERROELECTRIC thin films, MICROWAVE frequency converters, PEROVSKITE
Abstract

Complex dielectric properties of PbFe1/2Nb1/2)O3 ceramics were investigated in a broad frequency range from 100 Hz up to 90 THz. A broad dielectric anomaly was observed near the temperature of the ferroelectric phase transition (TC1=376 K). Below 1MHz, the anomaly is strongly influenced by conductivity of the sample, but higher frequency data taken up to 81 MHz reveal a broad and frequency independent peak at TC1 typical for a diffuse ferroelectric phase transition. Surprisingly, dielectric permittivity measured at 37 GHz exhibits a peak shifted by 25K above TC1, which indicates polar nanoregions with dynamics in microwave frequency region. A dielectric relaxation, which appears in THz region below 700 K, slows down towards TC1 and again hardens below TC2=356 K. This central mode drives both phase transitions, so they belong to order-disorder type, although the polar phonons exhibit anomalies near both phase transitions. In the paraelectric phase, infrared reflectivity spectra correspond to local Fm3m structure due to short-range chemical ordering of Fe and Nb cations on the B perovskite sites. Moreover, each polar phonon is split due to two different cations on the B sites. Recently, Manley et al. [Nat. Commun. 5, 3683 (2014)] proposed a new mechanism of creation of polar nanoregions in relaxor ferroelectrics. They argued, based on their inelastic neutron scattering studies of PMN-PT, that the TO1 phonon is split and interaction of both components gives rise to so called Anderson phonon localization, which can produce regions of trapped standing waves and these waves induce polar nanoregions in relaxors. We cannot exclude or confirm this mechanism, but we show that the splitting of polar phonons is a common feature for all complex perovskites with relaxor ferroelectric behavior and it can be also observed in canonical ferroelectric BaTiO3, where the soft mode is split in paraelectric phase due to a strong lattice anharmonicity. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

41. Ferroelectric domains in epitaxial PbTiO3 films on LaAlO3 substrate investigated by piezoresponse force microscopy and far-infrared reflectance.

Author

Simon, E., Borodavka, F., Gregora, I., Nuzhnyy, D., Kamba, S., Hlinka, J., Bartasyte, A., and Margueron, S.

Subjects
MAGNETIC domain, FERROMAGNETIC materials, FERROELECTRICITY, EPITAXY, CHEMICAL vapor deposition, PEROVSKITE
Abstract

Domain structures of 100-300 nm thin epitaxial films of ferroelectric PbTiO3 grown by metalorganic chemical vapor deposition technique on LaAlO3 perovskite substrate have been investigated by piezoresponse force microscopy and infrared reflectance spectroscopy techniques. Normal-incidence reflectance spectra reveal both E- and A1-symmetry modes of PbTiO3. The latter ones demonstrate the presence of a minor fraction of a-domains (with in-plane orientation of the spontaneous polarization) in the film. The piezoresponse force microscopy images allow to get local insight in the complex nanodomain architecture composed by few hundred nm large areas of primarily c/a/c/a but also a1/a2/a1/a2 domain pattern types, with participation of all six tetragonal ferroelectric domain states and both 180 ° and 90 ° ferroelectric walls. [ABSTRACT FROM AUTHOR]

Published
2011
Full Text
View/download PDF

42. Dielectric, magnetic, and lattice dynamics properties of Y-type hexaferrite Ba0.5Sr1.5Zn2Fe12O22: Comparison of ceramics and single crystals.

Author

Kamba, S., Goian, V., Savinov, M., Buixaderas, E., Nuzhnyy, D., Marysˇko, M., Kempa, M., Bovtun, V., Hlinka, J., Knízˇek, K., Vaneˇk, P., Novák, P., Bursˇík, J., Hiraoka, Y., Kimura, T., Kourˇil, K., and Sˇteˇpánková, H.

Subjects
PHYSICS research, CRYSTAL lattices, FERRITES, PIEZOELECTRIC ceramics, PIEZOELECTRICITY, CRYSTALLOGRAPHY, MAGNETIC resonance
Abstract

We prepared multiferroic Y-type hexaferrite Ba0.5Sr1.5Zn2Fe12O22 ceramics and compared their magnetic and dielectric properties with single crystal. Magnetic susceptibility and microwave resonance measurement revealed magnetic phase transition at TC=312 K, similar as in single crystal. Ferroelectric (FE) phase can be induced by external magnetic field in all investigated samples and the phase diagram in ceramics qualitatively resembles that of the single crystal. The range of magnetic fields, where the FE phase is induced, broadens after annealing of single crystal. Ceramics quenched after sintering exhibit several orders of magnitude lower conductivity than the single crystal. Heavily damped magnetic resonance was discovered in terahertz spectra at 10 K and its frequency softens below 5 GHz near TC. Number and symmetry of observed infrared (IR) and Raman active phonons correspond to paraelectric phase with D3d5 hexagonal structure. No evidence for a structural phase transition was found in the IR and Raman spectra on cooling (in zero magnetic field) or in the room-temperature IR spectra with external static magnetic field up to 0.3 T. [ABSTRACT FROM AUTHOR]

Published
2010
Full Text
View/download PDF

43. Broadband dielectric response and grain-size effect in K0.5Na0.5NbO3 ceramics.

Author

Buixaderas, E., Bovtun, V., Kempa, M., Savinov, M., Nuzhnyy, D., Kadlec, F., Vaneˇk, P., Petzelt, J., Eriksson, M., and Shen, Z.

Subjects
DIELECTRICS, BROADBAND dielectric spectroscopy, PHASE transitions, CERAMICS, CALORIMETRY
Abstract

Dielectric spectra of two K0.5Na0.5NbO3 ceramics with different grain sizes (10 and 0.5 μm) were measured from 102 to 1014 Hz in a broad temperature range. The sequence of first-order phase transitions (cubic-tetragonal-orthorhombic-rhombohedral) was detected by differential scanning calorimetry, dielectric spectroscopy, and time-domain terahertz spectroscopy. The grain size affects all the phase transitions, which are more smeared in the small-grain sample. In the large-grain ceramics, two well-separated near-Debye relaxations are seen in the tetragonal phase, which suddenly merge on cooling across the tetragonal-orthorhombic transition, and on further cooling the lower-frequency relaxation strongly broadens. On reducing the grain size, the higher-frequency relaxation shifts from ∼1 to ∼20 GHz and the lower-frequency one strongly broadens. Without quantitative understanding, these effects could be assigned to domain-wall dynamics and its temperature and grain-size dependences. Similar to pure KNbO3, an overlapped central-mode–soft-mode type excitation was detected in the terahertz range related to the effective hopping and oscillations of the off-centered Nb ions in a multiwell potential. [ABSTRACT FROM AUTHOR]

Published
2010
Full Text
View/download PDF

44. Dielectric relaxation and polar phonon softening in relaxor ferroelectric PbMg1/3Ta2/3O3.

Author

Kamba, S., Nuzhnyy, D., Veljko, S., Bovtun, V., Petzelt, J., Wang, Y. L., Setter, N., Levoska, J., Tyunina, M., Macutkevic, J., and Banys, J.

Subjects
*RELAXATION for health, *SPECTRUM analysis, *DIELECTRICS, *CERAMICS, *INDUSTRIAL chemistry, *PERMITTIVITY, *THIN films, *PEROVSKITE
Abstract

Relaxor ferroelectric PbMg1/3Ta2/3O3 ceramics and thin films were investigated by means of broad-band dielectric, time-domain terahertz (THz), and Fourier-transform infrared (IR) spectroscopy in the frequency range 100 Hz–90 THz at temperatures 100–490 K; the THz and IR spectra were studied from 20 to 900 K. A diffused and strongly temperature dependent peak in the complex permittivity is caused by a dielectric relaxation due to the dynamics of polar clusters. The relaxation appears below the Burns temperature Td in the THz range; it slows down on cooling through the microwave and MHz range and anomalously broadens. The shortest and longest relaxation times of the distribution of relaxation times follow Arrhenius and Vogel–Fulcher laws, respectively. The degree of the B-site order has only a small influence on the parameters of the dielectric relaxation and almost no influence on the phonon parameters. Below Tm≅180 K the distribution of relaxation frequencies becomes broader than our experimental spectral range, and frequency independent dielectric losses develop below 100 GHz in the spectra. Although the macroscopic crystal structure is cubic, IR spectra give evidence about the lower local symmetry, which can be assigned to the presence of the polar clusters below Td. Infrared spectra above Td still reveal more modes than predicted by selection rules in the paraelectric phase of the Fm3m space group so that we suggest selection rules which take into account chemical inhomogeneity in the β″-perovskite sublattice. [ABSTRACT FROM AUTHOR]

Published
2007
Full Text
View/download PDF

45. Dielectric relaxation and polar phonon softening in relaxor ferroelectric PbMg1/3Ta2/3O3.

Author

Kamba, S., Nuzhnyy, D., Veljko, S., Bovtun, V., Petzelt, J., Wang, Y. L., Setter, N., Levoska, J., Tyunina, M., Macutkevic, J., and Banys, J.

Subjects
RELAXATION for health, SPECTRUM analysis, DIELECTRICS, CERAMICS, INDUSTRIAL chemistry, PERMITTIVITY, THIN films, PEROVSKITE
Abstract

Relaxor ferroelectric PbMg1/3Ta2/3O3 ceramics and thin films were investigated by means of broad-band dielectric, time-domain terahertz (THz), and Fourier-transform infrared (IR) spectroscopy in the frequency range 100 Hz–90 THz at temperatures 100–490 K; the THz and IR spectra were studied from 20 to 900 K. A diffused and strongly temperature dependent peak in the complex permittivity is caused by a dielectric relaxation due to the dynamics of polar clusters. The relaxation appears below the Burns temperature Td in the THz range; it slows down on cooling through the microwave and MHz range and anomalously broadens. The shortest and longest relaxation times of the distribution of relaxation times follow Arrhenius and Vogel–Fulcher laws, respectively. The degree of the B-site order has only a small influence on the parameters of the dielectric relaxation and almost no influence on the phonon parameters. Below Tm≅180 K the distribution of relaxation frequencies becomes broader than our experimental spectral range, and frequency independent dielectric losses develop below 100 GHz in the spectra. Although the macroscopic crystal structure is cubic, IR spectra give evidence about the lower local symmetry, which can be assigned to the presence of the polar clusters below Td. Infrared spectra above Td still reveal more modes than predicted by selection rules in the paraelectric phase of the Fm3m space group so that we suggest selection rules which take into account chemical inhomogeneity in the β-perovskite sublattice. [ABSTRACT FROM AUTHOR]

Published
2007
Full Text
View/download PDF

46. Far-infrared and dielectric spectroscopy of relaxor ferroelectric (Pb1-xLax)(Zr0.4Ti0.6)O3.

Author

Buixaderas, E., Nuzhnyy, D., Veljko, S., Kamba, S., Savinov, M., Petzelt, J., and Kosec, M.

Subjects
*BROADBAND dielectric spectroscopy, *FERROELECTRIC crystals, *LEAD oxides, *ZIRCONIUM oxide, *PHONONS, *RELAXATION (Nuclear physics)
Abstract

The dielectric behavior of tetragonal (Pb1-xLax)(Zr0.4Ti0.6)O3 (PLZT x/40/60) ceramics doped with lanthanum (x=12% and 15%) has been investigated from 102 to 1014 Hz in the temperature range of 20–800 K. Relaxor ferroelectric behavior, together with a first-order ferroelectric phase transition at TC below the dielectric maximum, was revealed. The lowest-frequency phonon partially softens to TC and splits into two components in the ferroelectric phase. It is shown that similar splitting is typical for all relaxors even for samples without ferroelectric phase transitions, because the TO1 splitting occurs due to a local distortion in the polar clusters. A relaxational mode, assigned to the dynamics of polar clusters, was revealed in the teraherz spectra below 800 K. This mode slows down to the microwave range on cooling and finally anomalously broadens below TC, which appears to be characteristic for all relaxors. In comparison to the rhombohedral (Pb1-xLa0.095)(Zr0.65Ti0.35)O3, the low-temperature permittivity and dielectric losses are lower in the tetragonal PLZT as expected from the presence of the ferroelectric phase transition. [ABSTRACT FROM AUTHOR]

Published
2007
Full Text
View/download PDF

47. Far-infrared and dielectric spectroscopy of relaxor ferroelectric (Pb1-xLax)(Zr0.4Ti0.6)O3.

Author

Buixaderas, E., Nuzhnyy, D., Veljko, S., Kamba, S., Savinov, M., Petzelt, J., and Kosec, M.

Subjects
BROADBAND dielectric spectroscopy, FERROELECTRIC crystals, LEAD oxides, ZIRCONIUM oxide, PHONONS, RELAXATION (Nuclear physics)
Abstract

The dielectric behavior of tetragonal (Pb1-xLax)(Zr0.4Ti0.6)O3 (PLZT x/40/60) ceramics doped with lanthanum (x=12% and 15%) has been investigated from 102 to 1014 Hz in the temperature range of 20–800 K. Relaxor ferroelectric behavior, together with a first-order ferroelectric phase transition at TC below the dielectric maximum, was revealed. The lowest-frequency phonon partially softens to TC and splits into two components in the ferroelectric phase. It is shown that similar splitting is typical for all relaxors even for samples without ferroelectric phase transitions, because the TO1 splitting occurs due to a local distortion in the polar clusters. A relaxational mode, assigned to the dynamics of polar clusters, was revealed in the teraherz spectra below 800 K. This mode slows down to the microwave range on cooling and finally anomalously broadens below TC, which appears to be characteristic for all relaxors. In comparison to the rhombohedral (Pb1-xLa0.095)(Zr0.65Ti0.35)O3, the low-temperature permittivity and dielectric losses are lower in the tetragonal PLZT as expected from the presence of the ferroelectric phase transition. [ABSTRACT FROM AUTHOR]

Published
2007
Full Text
View/download PDF

48. Relaxor-like behavior of lead-free Sr2LaTi2Nb3O15 ceramics with tetragonal tungsten bronze structure.

Author

Bovtun, V., Kamba, S., Veljko, S., Nuzhnyy, D., Knízˇek, K., Savinov, M., and Petzelt, J.

Subjects
TUNGSTEN bronze, LATTICE dynamics, CRYSTAL lattices, NANOSTRUCTURED materials, PEROVSKITE, FERROELECTRIC crystals, CERAMICS
Abstract

Lead-free tetragonal tungsten bronze Sr2LaTi2Nb3O15 ceramics were prepared and its crystal structure determined. Dielectric response of Sr2LaTi2Nb3O15 was investigated in a broad frequency (100 Hz–90 THz) and temperature range. The observed relaxor-like behavior can be generally described in the framework of polar nanocluster dynamics concept. However, some peculiarities in the dielectric response, relaxational, and crystal lattice dynamics (e.g., hardly resolved Vogel–Fulcher part of the relaxation, reduced dielectric strength of the cluster flipping mechanism, absence of ferroelectric phase under electric field, absence of the polar soft phonon, etc.) were revealed. Therefore, we claim that Sr2LaTi2Nb3O15 is more alike to dipolar glasses than lead-based perovskite relaxor ferroelectrics. [ABSTRACT FROM AUTHOR]

Published
2007
Full Text
View/download PDF

49. Dielectric, magnetic, and lattice dynamics properties of Y-type hexaferrite [Ba.sub.0.5][Sr.sub.1.5][Zn.sub.2][Fe.sub.12][O.sub.22]: comparison of ceramics and single crystals

Author

Kamba, S., Goian, V., Savinov, M., Buixaderas, E., Nuzhnyy, D., Marysko, M., Kempa, M., Bovtun, V., Hlinka, J., Knizek, K., Vanek, P., Novak, P., Bursik, J., Hiroaka, Y., and Kimura, T.

Subjects
Barium compounds -- Electric properties, Barium compounds -- Magnetic properties, Iron alloys -- Electric properties, Iron alloys -- Magnetic properties, Magnetic fields -- Analysis, Phase diagrams -- Usage, Strontium -- Electric properties, Strontium -- Magnetic properties, Zinc alloys -- Electric properties, Zinc alloys -- Magnetic properties, Physics
Abstract

Multiferroic Y-type hexaferrite [Ba.sub.0.5][Sr.sub.1.5][Zn.sub.2][Fe.sub.12][O.sub.22] ceramics are prepared and their magnetic and dielectric properties are compared with single crystal. Ferroelectric (FE) phase is induced by external magnetic field in all samples and the phase diagram in ceramics has resembled that of the single crystal.

Published
2010

50. Broadband dielectric response and grain-size effect in [K.sub.0.5][Na.sub.0.5]Nb[O.sub.3] ceramics

Author

Buixaderas, E., Bovtun, V., Kempa, M., Savinov, M., Nuzhnyy, D., Kadlec, F., Vanek, P., Petzelt, J., Eriksson, M., and Shen, Z.

Subjects
Calorimetry -- Usage, Dielectric devices -- Usage, Niobium -- Electric properties, Niobium -- Optical properties, Phase transformations (Statistical physics) -- Analysis, Potassium compounds -- Electric properties, Potassium compounds -- Optical properties, Spectrum analysis -- Usage, Terahertz radiation -- Usage, Physics
Abstract

Differential scanning calorimetry, dielectric spectroscopy, and time-domain terahertz spectroscopy are used to detect the sequence of first-order phase transitions for dielectric spectra of two [K.sub.0.5][Na.sub.0.5]Nb[O.sub.3] ceramics with different grain sizes. An overlapped central-mode-soft-mode type excitation detected in the terahertz range related to the effective hopping and oscillations of the off-centered Nb ions in a multiwell potential is similar to those observed in the pure KNb[O.sub.3].

Published
2010

Catalog

Books, media, physical & digital resources
See catalog results