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313 results on '"Fritze, Holger"'

1. High-temperature domain wall current in Mg-doped lithium niobate single crystals up to 400{\deg}C

Author

Yakhnevych, Uliana, Kunzner, Marlo, Verhoff, Leonard M., Ratzenberger, Julius, Beyreuther, Elke, Rüsing, Michael, Sanna, Simone, Eng, Lukas M., and Fritze, Holger

Subjects
Condensed Matter - Materials Science
Abstract

Conductive ferroelectric domain walls (DWs) represent a promising topical system for the development of nanoelectronic components and devices. DWs show very different properties as compared to their bulk counterparts. Of central interest here is the domain wall current (DWC) of charged DWs in 5mol\% Mg-doped lithium niobate single crystals; in contrast to former works, we extend the DWC study here to temperatures as high as 400$^\circ$C. Both the temporal stability and the thermal activation energies of 90 - 160 meV are readily deduced from current-voltage sweeps as recorded over multiple heating cycles. Our experimental work is backed up by atomistic modelling of the DWC. The latter suggests that a large band bending renders head-to-head and tail-to-tail DWs semimetallic. These detailed investigations underline the potential to extend DWC-based nanoelectronic applications even into the so-far unexplored high-temperature regime., Comment: 5 pages, 4 figures; with included supplementary material (6 pages, 9 figures)

Published
2024

2. Ferroelectric to paraelectric structural transition in LiTaO$_3$ and LiNbO$_3$

Author

Bernhardt, Felix, Verhoff, Leonard M., Schäfer, Nils A., Kapp, Alexander, Fink, Christa, Nachwati, Wafaa Al, Bashir, Umar, Klimm, Detlef, Azzouzi, Fatima El, Yakhnevych, Uliana, Suhak, Yuriy, Schmidt, Harald, Becker, Klaus-Dieter, Ganschow, Steffen, Fritze, Holger, and Sanna, Simone

Subjects
Condensed Matter - Materials Science
Abstract

The ferroelectric to paraelectric phase transition in LiTaO$_3$ and in pure as well as Mg doped LiNbO$_3$ is investigated theoretically by atomistic calculations in the framework of the density functional theory, as well as experimentally by calorimetry and electrical conductivity measurements. First principles models within the stochastic self-consistent harmonic approximation (SSCHA) allow to consider anharmonic effects and thus to obtain a realistic estimate of the Curie temperature $T_C$ of both ferroelectrics. \textit{Ab initio} molecular dynamics (AIMD) calculations performed on large supercells confirm the Curie temperatures estimated with the SSCHA approach. Moreover, they also suggest that the structural phase transition is a continuous process beginning at temperatures well below $T_C$. According to AIMD, significant ionic displacements occurr already at temperatures of about 100\,K and 300\,K below $T_C$ in LiTaO$_3$ and LiNbO$_3$, respectively. To asses whether and how far the ionic displacements affect the materials properties, the AIMD results are compared with measurements of the electrical conductivity and of the heat capacity across the phase transition. Our first principles calculations moreover show that Mg ions, a frequently employed dopant, raise the Curie temperature in LiNbO$_3$.

Published
2024

3. Phase Transformation in Lithium Niobate-Lithium Tantalate Solid Solutions (LiNb$_{1-x}$Ta$_x$O$_3$)

Author

Azzouzi, Fatima El, Klimm, Detlef, Kapp, Alexander, Verhoff, Leonard M., Schäfer, Nils A., Ganschow, Steffen, Becker, Klaus-Dieter, Sanna, Simone, and Fritze, Holger

Subjects
Condensed Matter - Materials Science
Abstract

The investigation of the structural phase transition in the vicinity of the Curie temperature $T_c$ of LiNb$_{1-x}$Ta$_x$O$_3$ crystals is motivated by the expected combination of advantageous high-temperature properties of LiNbO$_3$ and LiTaO$_3$, including high piezoelectric modules and remarkable high-temperature stability, respectively. $T_c$ marks the ultimate limit for exploiting the piezoelectric properties, however transition related structural modifications might impact this and other properties even below $T_c$. Remarkably, the phase transition from the ferroelectric to the paraelectric phase, whose temperature strongly depends on the composition $x$, shows a significant drop in the activation energy of the electrical conductivity. The magnitude, temperature dependence and underlying mechanisms of this drop are discussed from a microscopic perspective. Molecular dynamics calculations in the framework of the density functional theory show that substantial displacements of the cations occur below $T_c$ for both the end compounds LiNbO$_3$ and LiTaO$_3$, and might thus affect the electrical conductivity. Above $T_c$, the migration of lithium ions is presumably facilitated by a shortened diffusion path for the most favorable jump of the lithium ions. Electronic contributions to the conductivity, which become important above 900 K, are explained within the polaronic picture by the formation and migration of free small polarons., Comment: I submitted it to The Physica Status Solidi A: Applications and Materials Science on 12/21/2023 and it's under review. It will be updated after receiving reviews

Published
2024

4. Influence of Li-stoichiometry on electrical and acoustic properties and temperature stability of Li(Nb,Ta)O$_{3}$ solid solutions up to 900 {\deg}C

Author

Tichy-Rács, Éva, Hurskyy, Stepan, Yakhnevych, Uliana, Gaczyński, Piotr, Ganschow, Steffen, Fritze, Holger, and Suhak, Yuriy

Subjects
Condensed Matter - Materials Science
Abstract

The current work is focused on the impact of the lithium stoichiometry on electrical conductivity, acoustic properties and high-temperature stability of single crystalline Li(Nb,Ta)O$_{3}$ at high temperatures. The crystals grown from Li-deficient melts were treated by the vapor transport equilibration (VTE) method, achieving near stoichiometric Li-content. It is shown, that the VTE-treated specimens generally exhibit lower conductivity at temperatures below 800 {\deg}C, which is attributed to the reduced number of Li-vacancies in near stoichiometric Li(Nb,Ta)O$_{3}$, provided that the Li-ion migration dominates the conductivity in this temperature range. Further, it is shown, that above 600-650 {\deg}C different mechanism increasingly contributes to the conductivity, which is consequently attributed to the electronic conduction. Further, it is shown that losses in LNT strongly increase above about 500 {\deg}C, which is interpreted to originate from conductivity-related relaxation mechanism. Finally, the thermal stability of Li(Nb,Ta)O$_{3}$ is evaluated by the measurement of the conductivity and resonance frequency as a function of time. It is found that during annealing at 700 {\deg}C for 350 hours, the resonance frequency of LiNbO$_{3}$ remains in a {\textpm} 100 ppm range of the initial value of 3.5 MHz., Comment: Submitted to Physica Status Solidi A: Applications and Materials Science on 21st December 2023

Published
2024

5. Small electron polarons bound to interstitial tantalum defects in lithium tantalate

Author

Pfannstiel, Anton, Hehemann, Tobias, Schäfer, Nils A., Sanna, Simone, Suhak, Yuriy, Vittadello, Laura, Sauerwein, Felix, Dömer, Niklas, Koelmann, Julian, Fritze, Holger, and Imlau, Mirco

Subjects
Condensed Matter - Materials Science
Abstract

The absorption features of optically generated, short-lived small bound electron polarons are inspected in congruent lithium tantalate, ${\rm LiTaO}_3$ (LT), in order to address the question whether it is possible to localize electrons at interstitial ${\rm Ta_V}$:${\rm V_{Li}}$ defect pairs by strong, short-range electron-phonon coupling. Solid-state photoabsorption spectroscopy under light exposure and density functional theory are used for an experimental and theoretical access to the spectral features of small bound polaron states and to calculate the binding energies of the small bound ${\rm Ta}_{\rm Li}^{4+}$ (antisite) and ${\rm Ta}_{\rm V}^{4+}$:${\rm V_{Li}}$ (interstitial site) electron polarons. As a result, two energetically well separated ($\Delta E \approx 0.5\,{\rm eV}$) absorption features with a distinct dependence on the probe light polarization and peaking at $1.6\,{\rm eV}$ and $2.1\,{\rm eV}$ are discovered. We contrast our results to the interpretation of a single small bound ${\rm Ta}_{\rm Li}^{4+}$ electron state with strong anisotropy of the lattice distortion and discuss the optical generation of interstitial ${\rm Ta}_{\rm V}^{4+}$:${\rm V_{Li}}$ small polarons in the framework of optical gating of ${\rm Ta}_{\rm V}^{4+}$:${\rm Ta}_{\rm Ta}^{4+}$ bipolarons. We can conclude that the appearance of carrier localization at $\mathrm{Ta_V}$:${\rm V_{Li}}$ must be considered as additional intermediate state for the 3D hopping transport mechanisms at room temperature in addition to ${\rm Ta_{Li}}$, as well, and, thus, impacts a variety of optical, photoelectrical and electrical applications of LT in nonlinear photonics. Furthermore, it is envisaged that LT represents a promising model system for the further examination of the small-polaron based photogalvanic effect in polar oxides with the unique feature of two, energetically well separated small polaron states.

Published
2024
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12. Acoustic Loss in LiNb1−xTaxO3 at Temperatures up to 900 °C

Author

Yakhnevych, Uliana, primary, Sargsyan, Vanik, additional, El Azzouzi, Fatima, additional, Kapp, Alexander, additional, Bernhardt, Felix, additional, Suhak, Yuriy, additional, Ganschow, Steffen, additional, Schmidt, Harald, additional, Sanna, Simone, additional, and Fritze, Holger, additional

Published
2024
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15. Ferroelectric to paraelectric structural transition in LiTaO3 and LiNbO3

Author

Bernhardt, Felix, primary, Verhoff, Leonard M., additional, Schäfer, Nils A., additional, Kapp, Alexander, additional, Fink, Christa, additional, Nachwati, Wafaa Al, additional, Bashir, Umar, additional, Klimm, Detlef, additional, Azzouzi, Fatima El, additional, Yakhnevych, Uliana, additional, Suhak, Yuriy, additional, Schmidt, Harald, additional, Becker, Klaus-Dieter, additional, Ganschow, Steffen, additional, Fritze, Holger, additional, and Sanna, Simone, additional

Published
2024
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16. Oxygen Diffusion in Li(Nb,Ta)O3 Single Crystals

Author

Kofahl, Claudia, primary, Uhlendorf, Johanna, additional, Muscutt, Brendan A., additional, Pionteck, Mike N., additional, Sanna, Simone, additional, Fritze, Holger, additional, Ganschow, Steffen, additional, and Schmidt, Harald, additional

Published
2024
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30. Toward Reproducible Domain-Wall Conductance in Lithium Niobate Single Crystals

Author

Eng, Lukas M., Fritze, Holger, Technische Universität Dresden, Kiseleva, Iuliia, Eng, Lukas M., Fritze, Holger, Technische Universität Dresden, and Kiseleva, Iuliia

Abstract

Conductive domain walls (DWs) in lithium niobate (LiNbO3, LNO) are promising constituents for potential applications in nanoelectronics, due to their high conductance, as compared to the surrounding bulk material, their high local confinement at the nanometer scale, and the ability to be created quasi-on-will through dedicated high-voltage poling. However, electrically contacting the DWs unavoidably leads to the formation of a potential barrier between the DW itself and the electrode material. Thus, the focus of this work is the investigation of the various factors influencing the electronic transport across that barrier, namely, the type of electrode material, the quality of the LNO surface (atomically-smooth versus mirror polished), the quality of the crystal lattice (i.e., the presence of higher concentrations of lithium and oxygen vacancies VLi and VO), and the magnitude of the applied voltages during the domain-wall conductivity (DWC) enhancement procedure. It is found that all the above-mentioned factors have a significant impact on the current-voltage characteristics of the DW-electrode system. For example, the metal electrodes deposited onto the surface of the LNO crystal, once, impede the DW motion, while, secondly, stabilizing the DWs inclination across the LNO crystal. Another important finding is the major role played by large negative voltages in the DWC-enhancement procedure that strongly influences the near-surface structure of the DW, and hence the qualitative characteristics of the formed potential barrier, such as characteristic voltage and saturation current. The application of moderate voltages from –50 V to –100 V is also found to influence the structure of the near-surface DW. The creation of a variety of vacancy defects inside the bulk LNO that accompanies the formation of an atomically-smooth surface, is found to have far more influence on the DW charge transport than the quality of the surface, due to the formation and repulsive interaction

Published
2023

31. High-temperature electromechanical loss in piezoelectric langasite and catangasite crystals.

Author

Suhak, Yuriy, Fritze, Holger, Sotnikov, Andrei, Schmidt, Hagen, and Johnson, Ward L.

Subjects
*POINT defects, *CRYSTALS, *PIEZOELECTRIC thin films, *ACTIVATION energy
Abstract

Temperature-dependent acoustic loss Q−1 is studied in partially disordered langasite (LGS, La3Ga5SiO14) and ordered catangasite (CTGS, Ca3TaGa3Si2O14) crystals and compared with previously reported CTGS and langatate (LGT, La3Ga5.5Ta0.5O14) data. Two independent techniques, a contactless tone-burst excitation technique and contacting resonant piezoelectric spectroscopy, are used in this study. Contributions to the measured Q−1(T) are determined through fitting to physics-based functions, and the extracted fit parameters, including the activation energies of the processes, are discussed. It is shown that losses in LGS and CTGS are caused by a superposition of several mechanisms, including intrinsic phonon–phonon loss, point-defect relaxations, and conductivity-related relaxations. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Transitional Spaces: Between Indoor and Outdoor Spaces

Author

Kray, Christian, Fritze, Holger, Fechner, Thore, Schwering, Angela, Li, Rui, Anacta, Vanessa Joy, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Tenbrink, Thora, editor, Stell, John, editor, Galton, Antony, editor, and Wood, Zena, editor

Published
2013
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41. Analysis of defect mechanisms in nonstoichiometric ceria–zirconia by the microwave cavity perturbation method.

Author

Steiner, Carsten, Hagen, Gunter, Kogut, Iurii, Fritze, Holger, and Moos, Ralf

Subjects
CAVITY resonators, PERMITTIVITY, DIELECTRIC properties, PARTIAL pressure, SOLID solutions
Abstract

In this microwave study, the defect chemistry of ceria–zirconia solid solutions (CZO, Ce1−yZryO2−δ) was investigated at high temperatures by a resonant microwave method. Specifically, the effects of temperature and Zr content on the dielectric properties and defect chemistry mechanisms in CZO were analyzed. Experiments were performed on a series of different CZO powders (y = 0.2, 0.33, 0.50, 0.67). Measurements at 600°C and different oxygen partial pressures (pO2 = 10−26–0.2 bar) confirm a dominant n‐type conduction of small‐polarons in CZO due to the preferred formation of oxygen vacancies, which is also supported by a multimodal analysis. Polarization losses were found to be negligible in the GHz range. Furthermore, an increased relative permittivity was observed in CZO, which correlates with the concentration of oxygen vacancies in CZO. Our microwave study is the first to provide a comprehensive data set for the dielectric properties of CZO powder sample in a wide range of different conditions. In addition, the connection of dielectric properties to CZO defect chemistry mechanisms is presented. The results are in good agreement with findings in the literature and may contribute to a better understanding of microwave‐based state diagnosis of CZO‐based materials, as it discussed for three‐way catalysts. [ABSTRACT FROM AUTHOR]

Published
2023
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47. Chemical expansion of CeO2−δ and Ce0.8Zr0.2O2−δ thin films determined by laser Doppler vibrometry at high temperatures and different oxygen partial pressures.

Author

Kohlmann, Dhyan, Wulfmeier, Hendrik, Schewe, Marvin, Kogut, Iurii, Steiner, Carsten, Moos, Ralf, Rembe, Christian, and Fritze, Holger

Subjects
THIN films, PARTIAL pressure, LASER Doppler vibrometer, HIGH temperatures, STRAINS & stresses (Mechanics), CERIUM oxides
Abstract

The chemical expansion of ceria (CeO2−δ) and ceria-zirconia (Ce0.8Zr0.2O2−δ, CZO80) thin films is investigated by high-temperature laser Doppler vibrometry (LDV) at temperatures from 600 to 950 °C. The films are deposited on single-crystalline 8 mol-% yttria-stabilized zirconia substrates, which act as pumping cells to adjust oxygen non-stoichiometry in the thin films. Oxygen deficiency causes film expansion, leading to mechanical strain that bends the sample. The total displacement, i.e., the sum of bending and film-thickness change, is determined contact-less by LDV. A differential laser Doppler vibrometer (D-LDV) is realized to enable measurements on a very long time scale, which is necessary due to the long equilibrium times of the ceramic films. These displacements are compared to those acquired with a commercial single-point laser Doppler vibrometer (SP-LDV) for motions above 1 Hz. Here, both devices yield similar results. CZO80 films are found to bend a substrate much more than ceria films under similar experimental conditions. A model describing the displacement of the sample is derived from the Stoney model and applied to calculate deflections using literature data. The displacements at the center of the CZO80 sample measured with the SP-LDV increase from 0.18 nm at 10 Hz and 600 °C to 32.7 nm at 0.1 Hz and 800 °C. For ceria, the displacements range from 1.6 nm (10 Hz, 800 °C) to 79.4 nm (0.1 Hz, 900 °C). The D-LDV enables the detection of quasi-static displacements at very low frequencies. The ceria sample exhibits 218 nm at 0.001 Hz and 800 °C. [ABSTRACT FROM AUTHOR]

Published
2023
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50. Determination of optimal crystallographic orientations for LiNbO3 and LiTaO3 bimorph actuators

Author

Buryy, Oleh, Syvorotka, Ihor I., Suhak, Yuriy, Yakhnevych, Uliana, Sugak, Dmytro, Ubizskii, Sergii, and Fritze, Holger

Subjects
TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES
Abstract

The actuators for precise positioning based on bimorph structures of piezoelectric LiNbO3 and LiTaO3 crystals are considered. The optimal orientations of the actuator plates ensuring the highest possible displacements are determined by the extreme surfaces technique and the finite-element method. The simulated displacements for optimal orientations of LiNbO3 and LiTaO3 plates are compared with those obtained experimentally for manufactured LiNbO3 and LiTaO3 actuators, whose orientations are not optimal. As is shown, the optimal configuration of the actuator allows us to significantly increase its displacement for both LiNbO3 and LiTaO3 specimens.

Published
2021

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