9 results on '"Klimm, Detlef"'
Search Results
2. Czochralski growth of mixed cubic sesquioxide crystals in the ternary system Lu2O3–Sc2O3–Y2O3.
- Author
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Kränkel, Christian, Uvarova, Anastasia, Haurat, Émile, Hülshoff, Lena, Brützam, Mario, Guguschev, Christo, Kalusniak, Sascha, and Klimm, Detlef
- Subjects
TERNARY system ,HIGH power lasers ,MELTING points ,CRYSTALS ,CRYSTAL growth ,RARE earth oxides - Abstract
Cubic rare‐earth sesquioxide crystals are strongly demanded host materials for high power lasers, but due to their high melting points investigations on their thermodynamics and the growth of large‐size crystals of high optical quality remain a challenge. Detailed thermal investigations of the ternary system Lu2O3–Sc2O3–Y2O3 revealing a large range of compositions with melting temperatures below 2200°C and a minimum of 2053°C for the composition (Sc0.45Y0.55)2O3 are presented. These reduced temperatures enable for the first time the growth of high optical quality mixed sesquioxide crystals with disordered structure by the conventional Czochralski method from iridium crucibles. An (Er0.07Sc0.50Y0.43)2O3 crystal is successfully grown and characterized with respect to its crystallographic properties as well as its composition, thermal conductivity and optical absorption in the 1 µm range. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
3. MgGa2O4 as a new wide bandgap transparent semiconducting oxide: growth and properties of bulk single crystals.
- Author
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Galazka, Zbigniew, Klimm, Detlef, Irmscher, Klaus, Uecker, Reinhard, Pietsch, Mike, Bertram, Rainer, Naumann, Martin, Albrecht, Martin, Kwasniewski, Albert, Schewski, Robert, and Bickermann, Matthias
- Subjects
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CRYSTAL gazing , *CRYSTALLINITY , *HYDROGEN , *CRYSTALS , *ELECTRONS - Abstract
Bulk MgGa2O4 single crystals with inverse spinel structure were grown from the melt by different methods. The degree of inversion could be changed by suitable annealing, which was confirmed by differential scanning calorimetry analysis and corresponding changes of the specific heat capacity. MgGa2O4 is thermally much more stable at high temperatures than β-Ga2O3 despite of a higher melting point of about 1930 °C and could be grown under a neutral atmosphere. Melt-grown MgGa2O4 crystals were found to be either electrical insulators or n-type semiconductors depending on the presence of oxygen in the growth atmosphere and the growth method applied. Growing the crystals in the presence of oxygen resulted in electrically insulating crystals. For as-grown and intentionally undoped semiconducting crystals, the free electron concentration was in the range of 1017-1018 cm−3, but the electron mobility was relatively low, just a few cm2V−1s−1. The free electron concentration remained at a level of 1018 cm−3 after annealing in a hydrogen-containing atmosphere at 600-900 °C for 10 h. On the other hand, annealing in an oxygen-containing atmosphere above 600 °C for 10-40 h turns the crystals from the semiconducting to the insulating state. The optical bandgap at room temperature amounts to about 4.9 eV. It decreases with temperature at a rate of 1.35 meV/K. Cathodoluminescence spectra of as-grown crystals show a dominant band at 362 nm. The melt-grown crystals have sufficient size and structural quality to be used as substrates for epitaxy. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
4. REScO3 Substrates—Purveyors of Strain Engineering.
- Author
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Klimm, Detlef, Guguschev, Christo, Ganschow, Steffen, Bickermann, Matthias, and Schlom, Darrell G.
- Subjects
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LATTICE constants , *CHEMICAL stability , *PHASE transitions , *CRYSTALS - Abstract
The thermodynamic and crystallographic background for the development of substrate crystals that are suitable for the epitaxial deposition of biaxially strained functional perovskite layers is reviewed. In such strained layers the elastic energy delivers an additional contribution to the Gibbs free energy, which allows the tuning of physical properties and phase transition temperatures to desired values. For some oxide systems metastable phases can even be accessed. Rare‐earth scandates, REScO3, are well suited as substrate crystals because they combine mechanical and chemical stability in the epitaxy process with an adjustable range of pseudo‐cubic lattice parameters in the 3.95 to 4.02 Å range. To further tune the lattice parameters, chemical substitution for the RE or Sc is possible. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
5. Thermodynamic Investigation of Ternary Delafossite Crystals.
- Author
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Wolff, Nora, Klimm, Detlef, Ganschow, Steffen, and Siche, Dietmar
- Subjects
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TERNARY phase diagrams , *IRON oxides , *P-type semiconductors , *FERRIC oxide , *SINGLE crystals , *CRYSTALS - Abstract
The ternary phase diagram of copper–iron–aluminium delafossite is established with FactSage calculations to improve the conditions for solution growth and the electrical conductivity of the transparent p‐type semiconductor copper–aluminium delafossite by addition of iron oxide. Initial growth experiments with the optical float zone method show that the growth of single crystals with commercially relevant dimensions is not expected in the near future. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
6. Czochralski growth of mixed cubic sesquioxide crystals in the ternary system Lu2O3–Sc2O3–Y2O3.
- Author
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Kränkel, Christian, Uvarova, Anastasia, Haurat, Émile, Hülshoff, Lena, Brützam, Mario, Guguschev, Christo, Kalusniak, Sascha, and Klimm, Detlef
- Subjects
- *
TERNARY system , *HIGH power lasers , *MELTING points , *CRYSTALS , *CRYSTAL growth , *RARE earth oxides - Abstract
Cubic rare‐earth sesquioxide crystals are strongly demanded host materials for high power lasers, but due to their high melting points investigations on their thermodynamics and the growth of large‐size crystals of high optical quality remain a challenge. Detailed thermal investigations of the ternary system Lu2O3–Sc2O3–Y2O3 revealing a large range of compositions with melting temperatures below 2200°C and a minimum of 2053°C for the composition (Sc0.45Y0.55)2O3 are presented. These reduced temperatures enable for the first time the growth of high optical quality mixed sesquioxide crystals with disordered structure by the conventional Czochralski method from iridium crucibles. An (Er0.07Sc0.50Y0.43)2O3 crystal is successfully grown and characterized with respect to its crystallographic properties as well as its composition, thermal conductivity and optical absorption in the 1 µm range. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
7. Effects of the Li-evaporation on the Czochralski growth of γ-LiAlO2
- Author
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Veličkov, Boža, Mogilatenko, Anna, Bertram, Rainer, Klimm, Detlef, Uecker, Reinhard, Neumann, Wolfgang, and Fornari, Roberto
- Subjects
- *
CRYSTALLOGRAPHY , *CRYSTALS , *CRYSTAL growth , *CRYSTAL grain boundaries - Abstract
Abstract: Two-inch-diameter γ-LiAlO2 single crystals were grown from the melt by Czochralski method. The crystals were examined by optical methods, high-resolution X-ray diffraction and transmission electron microscopy (TEM). Inductively coupled plasma optical emission spectrometry (ICP-OES) was used to determine the Li/Al ratio in the residual melts. The Li-evaporation from both melt and grown crystal is the main problem in the γ-LiAlO2 growth and has to be controlled by acting on the vertical temperature gradient. Shallow gradients increase the Li-evaporation from the crystal surface resulting in boules with a milky rim. On the other hand, steep gradients may induce cracks in the boule and enhance the Li2O escape from melt with consequent variation of the composition. ICP-OES investigations reveal that melt compositions can vary in the range from 46.5 to 50mol% Li2O to obtain transparent LiAlO2 crystals. Beyond this value, the formation of inclusions inside the crystals is probable. We have established an optimized growth assembly, which allows remaining the melt composition stoichiometric. The as-grown crystals exhibit defects like subgrains, twins and a core of voids and fine-grained inclusions. The latter could be characterized by TEM as submicron LiAl5O8 crystallites. [Copyright &y& Elsevier]
- Published
- 2008
- Full Text
- View/download PDF
8. Dopant segregations in oxide single-crystal fibers grown by the micro-pulling-down method
- Author
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Maier, Dirk, Rhede, Dieter, Bertram, Rainer, Klimm, Detlef, and Fornari, Roberto
- Subjects
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CRYSTAL whiskers , *CRYSTALS , *ELECTRON probe microanalysis , *PARTITION coefficient (Chemistry) - Abstract
Abstract: (Cr, Al)2O3 (k 0 =2), (Ga, Al)2O3 (k 0 =0.3), Gd3(Cr, Ga)5O12 (k 0 >1), (Gd, Yb)3Ga5O12 (k 0 >1) and (Yb, Y)3Al5O12 (k 0 >1) fibers have been grown by the micro-pulling-down method. k 0 is the equilibrium distribution coefficient of the dopant with respect to the given host phase. The axial and radial dopant distribution was measured by electron probe microanalysis. The growth interface was frozen by pulling-down the fiber rapidly and quenching the molten zone. In the case of growth with a thin melt zone of about 30–70μm between growth front and crucible nozzle radial dopant distributions in form of a homogeneous core and a peripheral rim of different composition were found in all fibers. The growth interface has a bump into the crucible nozzle. For (Yb, Y)3Al5O12, Gd3(Cr, Ga)5O12, (Gd, Yb)3Ga5O12 and (Ga, Al)2O3 mainly diffusional transport in the crucible nozzle was found. The dopant concentration is higher or lower at the rim than in the core for k 0 <1 or k 0 >1, respectively. This axial segregation corresponds to the bend interface. In the case of (Cr, Al)2O3 convective transport inside the crucible nozzle was found. Also, different to the diffusive case, the Cr2O3 concentration in the rim is higher than in the core region although k 0 >1. The growth with a higher melt zone of about 200μm has the same axial segregation behaviour but the radial segregation is strongly suppressed. The interface is spherical. The experiments show, that the radial and axial concentration profiles that are the result from the micro-pulling-down growth of solid solutions are influenced by the distribution coefficient, the geometry of the crucible, the height of the molten zone and melt properties. [Copyright &y& Elsevier]
- Published
- 2007
- Full Text
- View/download PDF
9. Acknowledgment to Reviewers of Crystals in 2020.
- Subjects
CRYSTALS ,PRECIOUS metals - Published
- 2021
- Full Text
- View/download PDF
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