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1. 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

2. 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

3. Evaluation and thermodynamic optimization of phase diagram of lithium niobate tantalate solid solutions

Author

Bashir, Umar, Klimm, Detlef, Rusing, Michael, Bickermann, Matthias, and Ganschow, Steffen

Subjects
Condensed Matter - Materials Science
Abstract

The phase diagram of the lithium niobate and lithium tantalate solid solutions was investigated using experimental data from differential thermal analysis (DTA) and crystal growth. We used XRF analysis to determine the elemental composition of crystals. Based on the Neumann-Kopp rule, essential data of end members lithium niobate (LN) and lithium tantalate (LT) was created. The heats of fusion of end members given by DTA measurements of LN (103 kJ/mol at 1531 K) and LT (289 kJ/mol at 1913 K) were given as input parameters to generate the data. This data served as the basis for calculating a phase diagram for LN and LT solid solutions. Finally, based on the experimental data and thermodynamic solution model, the phase diagram was optimized in the Calphad Factsage module. We also generated thermodynamic parameters for Gibb's excess energy of the solid solution. A plot of segregation coefficient as a function of Ta concentration was derived from the phase diagram.

Published
2024

4. Adsorption-controlled plasma-assisted molecular beam epitaxy of LaInO3 on DyScO3(110): Growth window, strain relaxation, and domain pattern

Author

Hoffmann, Georg, Zupancic, Martina, Klimm, Detlef, Schewski, Robert, Albrecht, Martin, Ramsteiner, Manfred, and Bierwagen, Oliver

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

We report the growth of epitaxial LaInO3 on DyScO3(110) substrates by adsorption-controlled plasma-assisted molecular beam epitaxy (PA-MBE). The adsorption-controlled growth was monitored using line-of-sight quadrupole mass spectrometry. In a thermodynamics of MBE (TOMBE) diagram, the experimental growth window was found to be significantly narrower than the predicted one. We found the critical thickness for strain relaxation of the LaInO3 layer (lattice mismatch $\approx$ -4$\%$) to be of 1 nm using in-situ RHEED analysis. Substrate and film possess an orthorhombic crystal structure which can be approximated by a pseudo-cubic lattice. X-ray-diffraction (XRD) analysis revealed the pseudo-cube-on-pseudo-cube epitaxial relationship ofthe LaInO3 films to the DyScO3 substrates. This relation was confirmed by transmission electron microscopy (TEM), which further resolved the presence of rotational orthorhombic domains - the majority of which have coinciding c-axis with that of the substrate. Raman spectroscopy further confirmed the presence of a LaInO3 layer. Our findings open up the possibility for 2-dimensional electron gases at the MBE-grown heterointerface with BaSnO3., Comment: 9 pages, 11 figures

Published
2022

6. Phase diagram studies for the growth of (Mg,Zr):SrGa$_{12}$O$_{19}$ crystals

Author

Klimm, Detlef, Szczefanowicz, Bartosz, Wolff, Nora, and Bickermann, Matthias

Subjects
Condensed Matter - Materials Science
Abstract

By differential thermal analysis a concentration field suitable for the growth of Zr, Mg codoped strontium hexagallate crystals was observed that corresponds well with experimental results from Mateika and Laurien, J. Crystal Growth 52 (1981) 566-572. It was shown that the melting point of doped crystal is ca. 60 K higher than that of undoped crystals. This higher melting points indicates hexagallate phase stabilization by Zr, Mg codoping, and increases the growth window, compared to undoped SrO-Ga$_2$O$_3$ melts., Comment: 8 pages, 4 figures, 1 table, 31 references

Published
2020

7. Growth of CuFeO$_2$ Single Crystals by the Optical Floating-Zone Technique

Author

Wolff, Nora, Schwaigert, Tobias, Siche, Dietmar, Schlom, Darrell G., and Klimm, Detlef

Subjects
Condensed Matter - Materials Science
Abstract

CuFeO$_2$ single crystals up to 50 mm in length and up to 10 mm in diameter were grown by the optical floating-zone method. Stoichiometric polycrystalline rods with a diameter of 6-12 mm were used as feed materials to produce crystals of sufficient size to be used as substrates for the growth of thin films of delafossites. For stable growth along the $c$-axis, low growth rates of 0.4 mm/h are necessary. Due to the incongruent melting behavior of CuFeO$_2$, a stable melt zone requires adjustment of the lamp power during growth. The melting of CuFeO$_2$ is not simply incongruent because the thermodynamic equilibrium includes more than two solid phases and the melt; the gas phase is also involved. The crystals were characterized by X-ray diffraction and X-ray fluorescence measurements., Comment: 17 pages, 5 figures, 1 table

Published
2019
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8. Thermal analysis and crystal growth of doped Nb$_2$O$_5$

Author

Hidde, Julia, Guguschev, Christo, and Klimm, Detlef

Subjects
Condensed Matter - Materials Science
Abstract

The systems Nb$_2$O$_5$-Ta$_2$O$_5$ and Nb$_2$O$_5$-V$_2$O$_5$ were investigated using thermal analysis, X-ray powder diffraction and thermodynamic simulations. Solid solution formation is possible for both systems; furthermore, both contain one intermediate compound, VNb$_9$O$_{25}$ or Ta$_2$Nb$_4$O$_{15}$, respectively. Phase relationships for pure niobium(V)-oxide and tantalum(V)-oxide were studied under ambient pressure. It was found that both compounds can occur in two stable solid modifications. For niobium(V)-oxide this are the monoclinic high-temperature modification (H-Nb$_2$O$_5$) and an orthorhombic low-temperature modification (T-Nb$_2$O$_5$) and for tantalum(V)-oxide a tetragonal high-temperature form ($\alpha$-Ta$_2$O$_5$) and an orthorhombic low-temperature form ($\beta$-Ta$_2$O$_5$). Based on these results, crystal growth experiments with various compositions from both systems were carried out using the optical floating zone (OFZ) technique., Comment: 15 pages, 10 figures, 6 tables, submitted to J. Crystal Growth

Published
2018
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9. Investigation of the Nd$_2$O$_3$--Lu$_2$O$_3$--Sc$_2$O$_3$ phase diagram for the preparation of perovskite-type mixed crystals NdLu$_{1-x}$Sc$_x$O$_3$

Author

Hirsch, Tamino, Guguschev, Christo, Kwasniewski, Albert, Ganschow, Steffen, and Klimm, Detlef

Subjects
Condensed Matter - Materials Science
Abstract

Based on differential thermal analysis (DTA) and X-ray powder diffraction (XRD), a description of the system Nd$_2$O$_3$--Lu$_2$O$_3$--Sc$_2$O$_3$ was obtained by thermodynamic assessment. Four fields of primary crystallization could be identified; from melt compositions close to the Lu$_2$O$_3$--Sc$_2$O$_3$ edge the rare-earth oxide C-phase crystallizes first, which is stable down to room temperature. From Nd$_2$O$_3$ rich melts the X-phase forms, which is stable only at high temperatures. An additional field, where the alternative high-temperature phase H solidifies as primary product touches the Nd$_2$O$_3$--Lu$_2$O$_3$ edge of the concentration triangle. From melts close to the composition NdScO$_3$, the P-phase (perovskite) can be crystallized and mixed crystals with second end member NdLuO$_3$ have been grown from the melt. Crystals of this mixed perovskite were grown by the micro-pulling-down and Czochralski methods., Comment: 16 pages, 8 figures, submitted to J. Crystal Growth

Published
2018
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10. On melt solutions for the growth of CaTiO$_3$ crystals

Author

Klimm, Detlef, Schmidt, Max, Wolff, Nora, Guguschev, Christo, and Ganschow, Steffen

Subjects
Condensed Matter - Materials Science
Abstract

When calcium titanate crystals are grown from stoichiometric melts, they crystallize in the cubic perovskite structure. Upon cooling to room temperature they undergo subsequent phase transitions to tetragonal and orthorhombic modifications. These phase transitions are disruptive and result in severely damaged crystals. This paper presents differential thermal analysis data for several prospective solvents, with the aim to identify a system offering the possibility to perform crystal growth of undistorted CaTiO$_3$ crystals by crystallizing them significantly below the melting point directly in the low temperature modification. From mixtures CaF$_2$:TiO$_2$:CaTiO$_3$ = 3:1:1 (molar ratio) the growth of undistorted, at least millimeter-sized CaTiO$_3$ crystals is possible., Comment: 12 pages, 6 figures, submitted to J. Crystal Growth

Published
2018
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12. Thermal conductivity of rare-earth scandates in comparison to other oxidic substrate crystals

Author

Hidde, Julia, Guguschev, Christo, Ganschow, Steffen, and Klimm, Detlef

Subjects
Condensed Matter - Materials Science
Abstract

High-temperature thermal properties of three neighboring rare-earth scandates DyScO$_3$, TbScO$_3$ and GdScO$_3$ were compared to La$_{0.29}$Sr$_{0.71}$Al$_{0.65}$Ta$_{0.35}$O$_3$ (LSAT) and sapphire. To calculate thermal conductivity, heat capacity and thermal diffusivity were measured by differential scanning calorimetry and laser flash technique, respectively. DyScO$_3$ and TbScO$_3$ showed an untypical rise in the thermal conductivity above 900\,K, while for GdScO$_3$, LSAT and sapphire the expected decrease at elevated temperatures could be observed. These results lead to the proposal of a new type of heat transport by migrating ions., Comment: 15 pages, 4 figures, submitted to J. Alloys. Compd

Published
2017
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13. Thermodynamic investigations on the growth of CuAlO$_2$ delafossite crystals

Author

Wolff, Nora, Klimm, Detlef, and Siche, Dietmar

Subjects
Condensed Matter - Materials Science
Abstract

Simultaneous differential thermal analysis (DTA) and thermogravimetric (TG) measurements with copper oxide/aluminum oxide mixtures were performed in atmospheres with varying oxygen partial pressures and with crucibles made of different materials. Only sapphire and platinum crucibles proved to be stable under conditions that are useful for the growth of CuAlO$_2$ delafossite single crystals. Then the ternary phase diagram Al$_2$O$_3$-CuO-Cu and its isopleth section Cu$_2$O-Al$_2$O$_3$ were redetermined. Millimeter sized crystals could be obtained from copper oxide melts with 1-2 mol % addition of aluminum oxide that are stable in platinum crucibles held in oxidizing atmosphere containing 15-21 % oxygen., Comment: 12 pages, 7 figures

Published
2017
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15. On the influence of inversion on thermal properties of magnesium gallium spinel

Author

Schwarz, Linda, Galazka, Zbigniew, Gesing, Thorsten M., and Klimm, Detlef

Subjects
Condensed Matter - Materials Science
Abstract

Measurements of thermal diffusivity \k{appa} (using laser flash analysis) for temperatures from 100 {\deg}C to 1200 {\deg}C and of the inversion parameter x (using X-ray analysis) for the single crystal spinel MgGa2O4 have been performed. X-ray analysis showed a small change in x for samples annealed at 800 {\deg}C (x = 0.838) and 1200 {\deg}C (x = 0.834). Thermal diffusivity revealed a significant rise of \k{appa} for temperatures higher than 950 {\deg}C, deviating from the typical 1/T drop of \k{appa}. An additional systematic rise of \k{appa} with time is observed for temperatures between 950 {\deg}C and 1100 {\deg}C. A connection between cation disordering processes typical for spinels at elevated temperatures and the observed deviation of \k{appa} is proposed: Data indicate that cations changing their occupancy site at equilibration processes contribute significantly to \k{appa} and therefore represent a new type of heat transport., Comment: 6 pages, submitted to Crystal Research & Technology

Published
2015
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17. Single crystal fiber growth of cerium doped strontium yttrate, SrY2O4:Ce3+

Author

Philippen, Jan, Guguschev, Christo, and Klimm, Detlef

Subjects
Condensed Matter - Materials Science
Abstract

First single crystal fibers of cerium doped strontium yttrate are fabricated using the laser-heated pedestal growth technique. Through thermodynamic equilibrium calculations and by high-temperature mass spectrometry suitable growth conditions can be determined. The atmosphere plays an important role during crystallization. It affects the composition shift, on the one hand, and the valence state of cerium, on the other hand. These properties can be explained by combining X-ray diffraction, elemental analysis, and optical spectroscopy. Crystallization in slightly reducing nitrogen atmosphere proves to be a reasonable choice, because evaporation is suppressed and trivalent cerium is stabilized. Strong green emission that depends on the oxygen fugacity during crystallization can be excited using UV light. Optical transmission of SrY2O4:Ce3+ is measured for the first time.

Published
2014
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18. Ce3+:CaSc2O4 Crystal Fibers for Green Light Emission: Growth Issues and Characterization

Author

Klimm, Detlef, Philippen, Jan, Markurt, Toni, and Kwasniewski, Albert

Subjects
Condensed Matter - Materials Science
Abstract

Ce3+ is known to show broad optical emission peaking in the green spectral range. For the stabilization of 3-valent cerium in ceramic phosphors such as calcium scandate CaSc2O4, often co-doping with sodium for charge compensation is performed (Na+, Ce3+ = 2 Ca2+). At the melting point of CaSc2O4 (ca. 2110 deg C), however, alkaline oxides evaporate completely and co-doping is thus no option for crystal growth from the melt. It is shown that even without co-doping Ce3+:CaSc2O4 crystal fibers can be grown from the melt by laser-heated pedestal growth (LHPG) in a suitable reactive atmosphere. Reactive means here that the oxygen partial pressure is a function of temperature and pO2(T) rises for this atmosphere in such a way that Ce3+ is kept stable for all T. Crystal fibers with ca. 1 mm diameter and up to 50 mm length were grown and characterized. Differential thermal analysis (DTA) was performed in the pseudo-binary system CaO-Sc2O3, and the specific heat capacity cp(T) of CaSc2O4 was measured up to 1240 K by differential scanning calorimetry (DSC). Near and beyond the melting point of calcium scandate significant evaporation of calcium tends to shift the melt composition towards the Sc2O3 side. Measurements and thermodynamic calculations reveal quantitative data on the fugacities of evaporating species., Comment: 5 pages, 4 figures, MRS Fall Boston 2013

Published
2013
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19. Top-seeded solution growth of SrTiO3 crystals and phase diagram studies in the SrO-TiO2 system

Author

Guguschev, Christo, Klimm, Detlef, Langhans, Frank, Galazka, Zbigniew, Kok, Dirk, Juda, Uta, and Uecker, Reinhard

Subjects
Condensed Matter - Materials Science
Abstract

The TiO2 rich part of the (1-x) SrO + x TiO2 phase diagram 0.5 <= x <= 1.0 was redetermined and the eutectic point between SrTiO3 and TiO2 was found at x_eut=0.7700+/-0.0001; T_eut=(1449+/-3) deg C. From TiO2 rich melt solutions, x=0.75 centimeter-sized single crystals could be grown. The best crystals with etch pit density <2 x 10^4/cm^2 were obtained for growth directions <110> and <100>. AFM investigation of the interface reveals layer-by-layer growth., Comment: 6 pages, 7 figures

Published
2013
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20. Growth of Self Organized Eutectic Fibers from LiF-Rare Earth Fluoride Systems

Author

Klimm, Detlef, Acosta, Maria F., Santos, Ivanildo A. dos, Ranieri, Izilda M., Ganschow, Steffen, and Merino, Rosa I.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Eutectic fibers consisting of an ordered arrangement of LiF fibrils inside a LiREF4 matrix (RE = Y, Gd) can be grown with the micro-pulling-down method at sufficiently large pulling rate exceeding 120 mm/h. The distance between individual fibrils could be scaled down to 1 micrometer at 300 mm/h pulling. LiF-LiYF4 has stronger tendency to form facetted eutectic colonies than LiF-LiGdF4, explained by the larger entropy of melting of the former., Comment: 6 pages, 5 figures, Talk on MRS Fall 2012 Boston

Published
2013
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21. On the effect of oxygen partial pressure on the chromium distribution coefficient in melt-grown ruby crystals

Author

Ganschow, Steffen, Klimm, Detlef, and Bertram, Rainer

Subjects
Condensed Matter - Materials Science
Abstract

Small ruby crystals were grown by the Czochralski technique in different atmospheres and their actual chromium content was analysed by a wet chemical method. The chromium distribution coefficient k was found to be strongly dependent on oxygen partial pressure p(O2). It ranges from k=0.3 in a reducing atmosphere to k=1.2 in a slightly oxidizing atmosphere and to a good approximation k depends linearly on log(p(O2)). The experimental data are discussed on the basis of thermodynamic equilibrium calculations.

Published
2012
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22. Growth Techniques for Bulk ZnO and Related Compounds

Author

Klimm, Detlef, Schulz, Detlev, Ganschow, Steffen, Galazka, Zbigniew, and Uecker, Reinhard

Subjects
Condensed Matter - Materials Science
Abstract

ZnO bulk crystals can be grown by several methods. 1) From the gas phase, usually by chemical vapor transport. Such CVT crystals may have high chemical purity, as the growth is performed without contact to foreign material. The crystallographic quality is often very high (free growth). 2) From melt fluxes such as alkaline hydroxides or other oxides (MoO3, V2O5, P2O5, PbO) and salts (PbCl2, PbF2). Melt fluxes offer the possibility to grow bulk ZnO under mild conditions (<1000 deg. C, atmospheric pressure), but the crystals always contain traces of solvent. The limited purity is a severe drawback, especially for electronic applications. 3) From hydrothermal fluxes, usually alkaline (KOH, LiOH) aqueous solutions beyond the critical point. Due to the amphoteric character of ZnO, the supercritical bases can dissolve it up to several per cent of mass. The technical requirements for this growth technology are generally hard, but this did not hinder its development as the basic technique for the growth of {\alpha}-quartz, and meanwhile also of zinc oxide, during the last decades. 4) From pure melts, which is the preferred technology for numerous substances applied whenever possible, e.g. for the growth of silicon, gallium arsenide, sapphire, YAG. The benefits of melt growth are (i) the high growth rate and (ii) the absence of solvent related impurities. In the case of ZnO, however, it is difficult to find container materials that are compatible from the thermal (fusion point Tf = 1975 deg. C) and chemical (required oxygen partial pressure) point of view. Either cold crucible (skull melting) or Bridgman (with reactive atmosphere) techniques were shown to overcome the problems that are inherent to melt growth. Reactive atmospheres allow to grow not only bulk ZnO single crystals, but also other TCOs such as {\beta}-Ga2O3 and In2O3., Comment: 10 pages, 7 figures, talk on MRS Fall 2011 Boston

Published
2011
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23. Self-Organized V - Mo Oxide Fibers by the Micro-Pulling Down Method

Author

Klimm, Detlef, Orlinski, Krzysztof, and Pawlak, Dorota A.

Subjects
Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

The V2O5-MoO3 mixtures offer a whole range of materials where properties can be adjusted by simple modification of experimental parameters, which may be utilized in manufacturing of metamaterials with on-demand properties. The V2O5-MoO3 system contains an intermediate phase V9Mo6O40, with a small fraction of V4+ instead of V5+. Consequently, this system should rather be considered as pseudobinary. The V4+ content depends on the oxygen partial pressure in the atmosphere. Thus, by changing the oxygen partial pressure one can tailor the electric properties of the system, and by changing the supercooling, the morphologic structure of crystallized bodies as well. For better understanding of this system differential thermal analysis and thermodynamic modeling was performed. Fibers of eutectic composition between V9Mo6O40 and MoO3 were grown by the micro-pulling-down technique. X-ray diffraction confirmed the existence of the V9Mo6O40 intermediate phase., Comment: 8 pages, 6 figures, MRS Fall 2009 Boston

Published
2009

24. Melt Grown ZnO Bulk Crystals

Author

Schulz, Detlev, Ganschow, Steffen, and Klimm, Detlef

Subjects
Condensed Matter - Materials Science
Abstract

Bulk crystals of zinc oxide can be grown from the melt by a Bridgman technique under pressure. This new technology using an iridium crucible shows the potential to yield large single crystals of good crystalline perfection. Crystals with diameters up to 33 mm and a length of up to 50 mm have been demonstrated. The impurity content can be strongly reduced by using the crucibles repeatedly., Comment: 6 pages, 2 figures, 1 table, talk on MRS Fall 2009 Boston, MA

Published
2009

25. Phase Equilibria and Crystal Growth for LiREF4 Scheelite Crystals

Author

Klimm, Detlef, Santos, Ivanildo A. dos, Ranieri, Izilda M., and Baldochi, Sonia L.

Subjects
Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

The scheelite type laser crystals LiREF4 melt congruently only for RE being one of the elements Er, Tm, Yb, Lu, or possibly Y, respectively. For RE = Eu, Gd, Tb, Dy, or Ho the corresponding scheelites undergo a peritectic melting under the formation of the corresponding rare earth fluoride. The melting behavior of LiREF4 mixed crystals with two or more RE is not yet known well. If RE is a mixture of Gd and Lu, Gd rich solid solutions melt peritectically under formation of (Gd,Lu)F3 and Lu rich solid solutions melt directly without formation of other solid phases., Comment: 6 pages, 4 figures, MRS Fall 2008 Boston

Published
2009
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26. The melting behavior of lutetium aluminum perovskite LuAlO3

Author

Klimm, Detlef

Subjects
Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

DTA measurements with mixtures of aluminum oxide and lutetium oxide around the 1:1 perovskite composition were performed up to 1970 deg. C. A peak with onset 1901 deg C was due to the melting of the eutectic Lu4Al2O9 (monoclinic phase) and LuAlO3 (perovskite). Neither peritectic melting of the perovskite nor its decomposition in the solid phase could be resolved experimentally. The maximum of the eutectic peak size is near x=0.44, on the Lu-rich side of the perovskite, which is consistent with the conclusion that LuAlO3 melts peritectically at ca. 1907 deg. C as proposed by Wu, Pelton, J. Alloys Compd. 179 (1992) 259. Thermodynamic equilibrium calculations reveal, that under strongly reducing conditions (oxygen partial pressure <10^{-13} bar) aluminum(III) oxide can be reduced to suboxides or even Al metal. It is shown that under such conditions a new phase field with liquid Al can appear., Comment: 6 pages, 4 figures, 1 table, submitted to J. Crystal Growth

Published
2009
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34. Ultra-wide bandgap, conductive, high mobility, and high quality melt-grown bulk ZnGa2O4 single crystals

Author

Galazka, Zbigniew, primary, Ganschow, Steffen, additional, Schewski, Robert, additional, Irmscher, Klaus, additional, Klimm, Detlef, additional, Kwasniewski, Albert, additional, Pietsch, Mike, additional, Fiedler, Andreas, additional, Schulze-Jonack, Isabelle, additional, Albrecht, Martin, additional, Schröder, Thomas, additional, and Bickermann, Matthias, additional

Published
2019
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37. Ultra-wide bandgap, conductive, high mobility, and high quality melt-grown bulk ZnGa2O4 single crystals.

Author

Galazka, Zbigniew, Ganschow, Steffen, Schewski, Robert, Irmscher, Klaus, Klimm, Detlef, Kwasniewski, Albert, Pietsch, Mike, Fiedler, Andreas, Schulze-Jonack, Isabelle, Albrecht, Martin, Schröder, Thomas, and Bickermann, Matthias

Subjects
SINGLE crystals, SEMICONDUCTORS, BAND gaps, ELECTRONS, ELECTRICAL resistivity, ELECTRONICS
Abstract

Truly bulk ZnGa2O4 single crystals were obtained directly from the melt. High melting point of 1900 ± 20 °C and highly incongruent evaporation of the Zn- and Ga-containing species impose restrictions on growth conditions. The obtained crystals are characterized by a stoichiometric or near-stoichiometric composition with a normal spinel structure at room temperature and by a narrow full width at half maximum of the rocking curve of the 400 peak of (100)-oriented samples of 23 arcsec. ZnGa2O4 is a single crystalline spinel phase with the Ga/Zn atomic ratio up to about 2.17. Melt-grown ZnGa2O4 single crystals are thermally stable up to 1100 and 700 °C when subjected to annealing for 10 h in oxidizing and reducing atmospheres, respectively. The obtained ZnGa2O4 single crystals were either electrical insulators or n-type semiconductors/degenerate semiconductors depending on growth conditions and starting material composition. The as-grown semiconducting crystals had the resistivity, free electron concentration, and maximum Hall mobility of 0.002–0.1 Ωcm, 3 × 1018–9 × 1019 cm−3, and 107 cm2 V−1 s−1, respectively. The semiconducting crystals could be switched into the electrically insulating state by annealing in the presence of oxygen at temperatures ≥700 °C for at least several hours. The optical absorption edge is steep and originates at 275 nm, followed by full transparency in the visible and near infrared spectral regions. The optical bandgap gathered from the absorption coefficient is direct with a value of about 4.6 eV, close to that of β-Ga2O3. Additionally, with a lattice constant of a = 8.3336 Å, ZnGa2O4 may serve as a good lattice-matched substrate for magnetic Fe-based spinel films. [ABSTRACT FROM AUTHOR]

Published
2019
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38. Intra-Cavity Frequency-Doubled Cr:Licaf Laser With 265 Mw Continuous-Wave Blue (395-405 Nm) Output

Author

Demirbas, Umit, Uecker, Reinhard, Klimm, Detlef, Sumpf, Bernd, and Erbert, Goetz

Abstract

We describe continuous-wave (cw) intracavity frequency-doubling experiments performed with a Cr:LiCAF laser. The Cr:LiCAF crystal is home-grown and had passive losses below 0.15% per cm. The laser is pumped by two recently-developed high-brightness tapered diodes, providing a total pump power of 2 W at 680 nm. The Cr:LiCAF laser generated up to 585 mW of cw output power around 800 nm with 43% slope efficiency at an absorbed pump power of 1.4W. The low passive losses of the crystal enabled storage of up to 380 W of intracavity laser power using a 0.07% transmitting output coupler, demonstrating suitability of Cr:LiCAF gain media for intracavity nonlinear conversion experiments. By performing intracavity frequency doubling with a BBO crystal, cw second-harmonic powers as high as 265 mW around 400 nm have been realized with optical-to-optical conversion efficiencies as high as 13.3%. To our knowledge, these are the highest cw frequency-doubled laser powers and conversion efficiencies obtained from Cr:Colquiriites to date. Moreover, obtained efficiencies are superior compared to what have been achieved with similar Ti:Sapphire systems, due to lower passive losses of Cr:LiCAF crystal. These results demonstrate the appropriateness of Cr:LiCAF gain media as a high-power tunable cw radiation generator in 375-435 nm region. (C) 2014 Elsevier B.V. All rights reserved.

Published
2014

40. Low-Cost, Broadly Tunable (375-433 Nm & 746-887 Nm) Cr:Licaf Laser Pumped By One Single-Spatial-Mode Diode

Author

Demirbas, Umit, Uecker, Reinhard, Klimm, Detlef, and Wang, Jing

Abstract

We describe a low-cost, compact, and efficient Cr3+:LiCaAlF6 (Cr:LiCAF) laser that is broadly tunable in the near infrared (746-887 nm) and blue/ultraviolet (375-433 nm) regions of the optical spectrum. The pump source is a 660 nm single-mode-diode with 145 mW of output power. A melt-grown Cr: LiCAF crystal with an extremely high figure of merit above 2000 was used as the gain medium. This enabled the construction of a high-Q-cavity with continuous wave (cw) lasing thresholds as low as 3 mW, slope efficiencies as high as 54%, and output powers up to 63 mW. The stored intracavity power levels were above 30 W. By placing a beta-barium-borate crystal at a second intracavity focus, we could obtain tunable cw blue/ultraviolet radiation with output powers up to 3.5 mW around 400 nm. When mode-locked using a saturable Bragg reflector around 800 nm, the Cr: LiCAF laser produced 95 fs pulses with average powers of 33 mW and peak powers of 3.58 kW at a repetition rate of 85.5 MHz. Extracavity second harmonic generation enables generation of femtosecond pulses around 400 nm. These results demonstrate the possibility to grow Cr: LiCAF crystals with passive losses below 0.15% per cm, which enables construction of low-cost and complexity systems that are pumped only with one low-power single-mode-diode. (c) 2012 Optical Society of America

Published
2012

41. Solidification of NaCl-LiF- $$\hbox {CaF}_{2}$$ ternary composites.

Author

Acosta, María, Merino, Rosa, Ganschow, Steffen, and Klimm, Detlef

Subjects
SOLIDIFICATION, LITHIUM fluoride, TERNARY alloys, METALLIC composites, METAL microstructure, MELTING
Abstract

The purpose of this work is to refine the microstructure of eutectic halides, candidates to polaritonic metamaterials, through the directional solidification of ternary compositions. NaCl-LiF- $$\hbox {CaF}_{2}$$ ternary composites have been solidified using Bridgman and micro-pulling-down techniques at pulling rates from 3 to 300 mm/h for the first time. The interparticle spacing is 12% smaller for this composition than for the binary fibrous NaCl-LiF eutectic. Conditions for solidification and growth in order to generate ternary aligned microstructures are discussed. The very small amount of melt remaining in the mixtures until $$580\,^{\circ }\hbox {C}$$ is probably the consequence of solid solubility of LiCl in NaCl and the formation of the reciprocal salt pairs, as in NaCl-LiF. However, it does not prevent the solidification of homogenous ternary microstructures. [ABSTRACT FROM AUTHOR]

Published
2017
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43. The cooling rate of the El'gygytgyn impact glass

Author

Rantzsch, Ulrike, Haber, Thomas, Klimm, Detlef, Kloess, Gert, Rantzsch, Ulrike, Haber, Thomas, Klimm, Detlef, and Kloess, Gert

Abstract

The thermal history of an impact glass from the El'gygytgyn impact structure, central Chukotka, Russia has been investigated with the method of relaxation geospeedometry. The cooling rate of the melt fragment has been quantified by heat capacity (cp) meas

Published
2013

48. Untersuchungen zur Züchtung von CuAlO2-Einkristallen

Author

Wolff, Nora, Technische Universität Berlin, Bickermann, Matthias, Klimm, Detlef, and Lerch, Martin

Subjects
540 Chemie und zugeordnete Wissenschaften, Kristallzüchtung, Phasendiagramm, ddc:540, crystal growth, Oxide, thermodynamic assessment, Thermodynamik, Delafossit, phase diagram
Abstract

Die vorliegende Arbeit entstand während meiner Tätigkeit als wissenschaftliche Mitarbeiterin am Leibniz-Institut für Kristallzüchtung in Berlin. Das Ziel der Arbeit war Bedingungen zu definieren, unter denen CuAlO2-Einkristalle aus dem Eigenfluss gezüchtet werden können. Zusätzlich wurden Untersuchungen zum Mischkristallsystem CuAlO2-CuFeO2 gemacht. Mithilfe thermodynamischer Messungen (DTA-TG) und Modellierungen mittels FactSage konnte das ternäre System Al2O3-Cu-CuO sowie das pseudobinäre System Cu2O-Al2O3 neu kalkuliert werden. Außerdem wurde erstmals das ternäre System Cu2O-Fe2O3-Al2O3 und das Mischkristallsystem CuAlO2-CuFeO2 berechnet. Für die Erstellung der Phasendiagramme wurden im Programm FactSage eigene Datenbanken angelegt, in denen vorhandene Daten an gewonnene Messdaten angeglichen und nicht existierende Phasen erstellt werden konnten. Der Züchtungsbereich des CuAlO2-Delafossits konnte zwischen etwa 1-2mol% Al2O3 in Cu2O eingegrenzt werden. Anhand der Ergebnisse aus den DTA-TG-Messungen konnten außerdem Aussagen zu einer geeigneten Züchtungsatmosphäre getroffen werden. Es zeigte sich, dass kupferoxidreiche Schmelzen in Platintiegeln stabil gehalten werden können, wenn in der Atmosphäre 15-21% Sauerstoff vorhanden ist. Bei niedrigeren Sauerstoffpartialdrücken wird zu viel elementares Kupfer gebildet und der Tiegel wird aufgrund einer Kupfer-Platin-Legierung angegriffen. Höhere Sauerstoffpartialdrücke führen zu einer Kristallisation des Spinelltyps CuAl2O4 anstelle von CuAlO2. Im Falle einer (CuAlxFe1-x)1-yO2+y-Mischkristallzüchtung müssen bei der Wahl der Atmopshäre neben den Oxidationszuständen des Kupferoxids (Cu2O und CuO) ebenfalls die des Eisenoxids (FeO, Fe2O3, Fe3O4) beachtet werden. An Luft ist hier die Spinellphase anstelle der Delafossitphase stabil, daher sollten reduzierendere Bedingungen als bei der reinen CuAlO2-Züchtung verwendet werden. Vorteilhaft bei der Mischkristallzüchtung ist, dass sich zum einen der Züchtungsbereich vergrößert und zum anderen der Schmelzpunkt der Delafossitphase herabgesetzt wird. Für die Züchtung der Materialien kamen verschiedene Kristallzüchtungsmethoden zum Einsatz. Die Züchtung in Tiegeln erfolgte mit (Czochralski/Top Seeded Solution Growth-Methode) und ohne Keimvorgabe (Spontane Kristallisation durch Abkühlen der Schmelzlösung im Muffelofen). Als tiegelfreie Alternative wurde eine Optical Floating Zone-Anlage gewählt. Die bisher größten CuAlO2-Einkristalle konnten in dieser Arbeit gezüchtet werden. Ausschlaggebend dafür war, dass die Züchtung unter den in dieser Arbeit optimierten Bedingungen erfolgte. Die plättchenförmigen Kristalle haben eine Größe von 5mm in [100] bzw. [010] und wurden durch spontane Kristallisation in einem Platintiegel an Luft gezüchtet. Die Züchtung mittels Keimvorgabe nach Czochralski/TSSG und auch die OFZ-Züchtung gestaltet sich aufgrund des kleinen CuAlO2-Züchtungsfensters als schwierig. In diesen Experimenten konnten keine größeren Kristalle erzielt werden. Die (CuAlxFe1-x)1-yO2+y-Mischkristallzüchtung in der OFZ-Anlage scheint aufgrund vereinfachter Züchtungsbedingungen (breiteres Züchtungsfenster bei niedrigerer Temperatur) vielversprechender zu sein., This thesis summarizes the results of my work as a PhD student at the Leibniz institute for crystal growth. The aim was to define conditions under which CuAlO2 single crystals can be grown from self-flux. In addition, investigations were carried out on the mixed crystal system CuAlO2-CuFeO2. Using thermodynamic measurements (DTA-TG), the ternary phase diagram Al2O3-Cu-CuO and its isopleth section Cu2O-Al2O3 were redeterminded. Besides the ternary system Cu2O-Fe2O3-Al2O3 and the mixed crystal system CuAlO2-CuFeO2 were calculated for the first time. The phase diagram calculations were done with the program FactSage in which own databases were created and the existing data was adapted to measurement data. The measurements revealed that solution growth should be carried out with 1-2 mol% Al2O3 in Cu2O. Moreover it could be shown that the copper oxide rich melts can be held stable in platinum crucibles that contain a sufficient oxygen concentration. 15-21% are the optimum compromise between the formation of too much metallic copper at lower oxygen partial pressures (from which the crucible will be destroyed because of Cu-Pt-alloy formation) and the crystallization of the spinel CuAl2O4 instead of CuAlO2 at higher oxygen partial pressures. In case of the (CuAlxFe1-x)1-yO2+y crystal growth, in addition to the oxidation states of the copper oxide (Cu2O und CuO), those of the iron oxide (FeO, Fe2O3, Fe3O4) must also be considered. In air, the spinel phase is stable instead of the delafossite phase. Therefore more reducing conditions should be used than for pure CuAlO2 crystal growth. The advantage for the mixed crystal growth is that on the one hand the growth area is enlarged and on the other hand the melting point of the delafossite phase is lowered. For the crystal growth different growth methods were used. The growth in platinum crucibles was carried out with the top seeded solution growth method, with the czochralski method and with spontaneous crystallization during cooling. As an alternative and crucible-free method the optical floating zone technique was used. Millimeter sized crystals (5mm in [100]/[010]) were grown in Pt-crucibles in air as a result of spontaneous crystallization. The growth using Czochralski/TSSG or OFZ is difficult because of the small CuAlO2 growth window. Due to the lower melting point and enlarged growth area, (CuAlxFe1-x)1-yO2+y crystal growth is more promising.

Published
2019
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49. Influence of the growth conditions on the optical properties of SrTiO3

Author

Kok, Dirk Johannes, Klimm, Detlef, Bickermann, Matthias, and Pinna, Nicola

Subjects
optical properties, 30 Chemie, Hochtemperatureigenschaften, optische Eigenschaften, Kristallzüchtung, 540 Chemie, ddc:540, SrTiO3, crystal growth, high temperature properties, UQ 2400
Abstract

Strontiumtitanat (SrTiO3) ist ein wichtiges Substratmaterial für die Epitaxie und essenziel für fast alle bekannten oxidbasierten zweidimensionalen Elektronengassysteme. Diese Systeme haben viele mögliche Anwendungen, sind aber anfällig für Versetzungen im Substrat, weswegen das volle Potential mit den kommerziell verfügbaren Kristallen nicht erreicht werden kann. Um die Qualität zu erhöhen, müssen bessere Züchtungsmethoden gefunden werden wozu Verständnis der temperaturabhängigen Materialeigenschaften unerlässlich ist. Für viele Oxide können sehr gute Kristalle mit der Czochralski Methode hergestellt werden. Diese Methode erfordert einen guten Wärmetransport durch den wachsenden Kristall. Ein sehr niedriger Wärmetransport führt zu instabilem Wachstum und manchmal zu Spiralbildung. Weil SrTiO3 einen hohen Schmelzpunkt von ca. 2350 K hat, dominiert der Strahlungswärmetransport. IR-Spektren bei hoher Temperatur zeigen eine starke Absorption an freien Ladungsträgern. UV/VIS-Spektren zeigen, dass die Bandlücke stark temperaturabhängig ist, was zu einer hohen Dichte an freien Ladungsträgern führt. Da die IR-Absorption stark mit der Temperatur zunimmt, bietet Kristallzüchtung bei niedrigeren Temperaturen mehr Kontrolle. Dies kann mit der „top-seeded solution growth“-Methode (TSSG) erreicht werden. Viele der gezüchteten Kristalle zeigen starke Verfärbungen. Die Abhängigkeit der optischen Eigenschaften von der Züchtungsatmosphäre wurde systematisch untersucht. Eine Atmosphäre mit sehr geringer Sauerstoffkonzentration führt zu einer schwarz-blauen Verfärbung und leitfähigen Kristallen, während zu viel Sauerstoff zu einer Braunen Farbe führt. Mit dem richtigen Sauerstoffgehalt ist es möglich farblose Kristalle zu züchten. Die braune Verfärbung in nahezu stoichiometrischen TSSG-Kristallen konnte auf Nanometer große Hohlräume in den Kristallen zurückgeführt werden die das Licht streuen. Diese Nanohohlräume entstehen wahrscheinlich durch die Kombination von Punktdefekten., Strontium titanate (SrTiO3) is an important epitaxy substrate material which is an essential component in almost all oxide based two-dimensional free electron gas systems. These systems offer many potential applications, but are very sensitive to dislocations in the substrate and their full potential cannot be reached with the commercially available material. To improve crystal quality, alternative growth methods are necessary and to find these, knowledge about the temperature dependent material properties is crucial. For many oxides, high-quality crystals can be produced by using the Czochralski method. For this method, a sufficiently high heat transport through the growing crystal is highly important. Very low heat transport will lead to unstable growth, often resulting in spiraling. Because SrTiO3 has a very high melting point of about 2350 K, radiative heat transport dominates. High temperature IR-spectra show that free charge carriers cause the low radiative heat transport. Temperature dependent UV/VIS spectra show that the band gap shifts strongly with temperature, causing the high free carrier concentration. Since the IR absorption depends heavily on the temperature, growth at lower temperatures is easier to control. This is possible using top seeded solution growth (TSSG). Many of the crystals produced by the growth methods investigated here show strong colorations. The dependence of the color on the growth atmosphere was investigated. Atmospheres with a low oxygen concentration led to blue/black conducting crystals and a high oxygen concentration led to brownish crystals. With the correct oxygen concentration, colorless crystals can be grown. The brown coloration in nearly stoichiometric TSSG crystals was found to be due to light scattering at nanometer sized voids in the crystals. These nano-voids are probably formed by the combination of vacancies.

Published
2017

50. Schmelzzüchtung von Oxiden in einer Atmosphäre mit definierter Sauerstofffugazität

Author

Ganschow, Steffen, Bickermann, Matthias, Technische Universität Berlin, Fakultät II - Mathematik und Naturwissenschaften, Lerch, Martin, and Klimm, Detlef

Subjects
ddc:541
Abstract

Es wurde der Einfluss der Sauerstoffaktivität auf Phänomene bei der Kristallzüchtung von Oxiden aus ihren Schmelzen untersucht. Mittels thermochemischer Rechnungen wurden die Stabilitätsbereiche der eingesetzten Oxide berechnet und darauf aufbauend Züchtungsexperimente konzipiert und durchgeführt. Zum Einsatz kamen speziell angepasste Gasmischungen mit Redoxpaaren, die eine über mehrere Größenordnungen einstellbare, temperaturabhängige Fugazität aufweisen. Der erste Teil der Arbeit beschäftigt sich mit der Züchtung von Wüstit-Einkristallen (FeO) aus der Schmelze. In thermoanalytischen Messungen und Kristallzüchtungsexperimenten konnte gezeigt werden, dass die Sauerstofffugazität einer Gasmischung aus 10 Vol-% CO2, 5 Vol-% CO und Ar über einen weiten Temperaturbereich innerhalb des Stabilitätsbereichs des Eisen(II)oxids liegt und somit zur Kristallisation des Wüstits führt. Wüstitkristalle wurden nach dem micro-pulling-down-Verfahren hergestellt und mittels Röntgenbeugung untersucht. Bei hinreichend hoher Wachstumsgeschwindigkeit von 50 mm/min und damit verbundener hoher Abkühlgeschwindigkeit konnte der eutektoide Zerfall der Kristalle in Magnetit und α-Eisen bei ca. 560°C unterdrückt und phasenreine Wüstitkristalle hergestellt werden. Im zweiten Teil der Arbeit wurde der Einfluss der Sauerstofffugazität auf die Chromverteilung in schmelzgezüchteten Rubinen untersucht. Unter für die Züchtung hochschmelzender Oxide typischen Versuchsbedingungen liegt ein erheblicher Teil des Chroms in der Schmelze in Form des Chrom(II)oxids vor. Im Gegensatz zu Chrom(III)oxid wird dieses praktisch nicht in den Kristall eingebaut. Daraus ergibt sich die Abhängigkeit der effektiven Chromsegregation vom Sauerstoffgehalt der Atmosphäre über der Schmelze. Diese Abhängigkeit wurde aus dem simulierten ternären Phasendiagramm des Systems Al2O3–Cr2O3–CrO berechnet und experimentell bestätigt. In einer Atmosphäre mit einer Sauerstofffugazität von ca. 3×10-5 bar am Schmelzpunkt des Rubins (ca. 2053°C) wird der Verteilungskoeffizient des Chroms zu 1, d.h. die Chromsegregation verschwindet. Nach der Czochralski-Methode in einer derart angepassten Atmosphäre gezüchtete Kristalle zeigen eine nahezu homogene Chromverteilung. Der dritte Teil der Arbeit befasst sich mit den Möglichkeiten der Züchtung von Kristallen aus Zinkoxid (ZnO) aus der Schmelze. Eine ZnO-Schmelze ist bei Temperaturen oberhalb 1975°C und Drücken über 1,06 bar stabil. Jedoch schränkt der zur Unterdrückung der Dissoziation in die Elemente notwendige Sauerstoffdruck die Auswahl kompatibler Tiegelmaterialien erheblich ein. Thermochemische Rechnungen zeigen, dass eine CO2-haltige Atmosphäre eine Sauerstofffugazität aufweist, die bei Temperaturen nahe dem Schmelzpunkt die Dissoziation des Zinkoxids weitgehend unterdrückt, gleichzeitig aber Iridium nicht oxidiert. So gelang erstmals die Züchtung großer Zinkoxid-Einkristalle nach dem Bridgman-Verfahren aus Iridiumtiegeln. Within the scope of this dissertation, the influence of oxygen activity on phenomena during melt growth of oxide crystals has been investigated. Based on thermochemical calculations of stability diagrams of the deployed metals and their oxides, crystal growth processes were designed and carried out. Gas mixtures containing redox pairs yielding a temperature-dependent oxygen fugacity that can be tuned over several orders of magnitude were extensively exploited. The first part deals with the growth of wüstite (FeO) single crystals from the melt. In thermoanalytic measurements and crystal growth experiments it could be verified that an ambient composed of 10 vol% CO2, 5 vol% CO, and Ar yields an oxygen fugacity that lies inside the stability range of iron(II) oxide over a wide temperature range. Wüstite single crystals were grown by the micro-pulling-down technique and characterized by X-ray diffraction technique. Applying a sufficiently high pulling rate of 50 mm/min allowed to suppress the eutectoid decomposition at 560°C and to obtain crystals without magnetite precipitations. The influence of oxygen fugacity on chromium distribution in melt-grown ruby (Cr:Al2O3) crystals is subject of the second part. In ambient conditions typical for the growth of high melting point oxides, a significant part of chromium occurs in the form of chromium(II) oxide which, in contrast to chromium(III) oxide, is practically not incorporated into the growing ruby crystal. As a result, the effective chromium segregation can be controlled by the oxygen partial pressure in the growth ambient. A quantitative relation of the chromium effective distribution coefficient on oxygen fugacity was derived from the calculated Al2O3–Cr2O3–CrO ternary phase diagram and confirmed in crystal growth experiments. An optimized growth ambient was identified for which the effective chromium segregation vanishes, i.e. for which the distribution coefficient becomes unity. Crystals grown in such conditions exhibited an exceptionally homogeneous chromium macro- and micro-distribution. The last part is focused on the feasibility of crystal growth of zinc oxide (ZnO) from the melt. A ZnO melt is stable above the triple point which occurs at 1975°C and 1.06 bar. The oxygen pressure needed to suppress dissociation into the elements drastically reduces the choice of compatible crucible materials. Equilibrium calculations showed that an atmosphere composed of CO2 yields an oxygen fugacity that can greatly reduce the ZnO dissociation but still does not oxidize iridium. With that knowledge large ZnO crystals could be grown using the Bridgman technique for the first time.

Published
2015

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