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Processing and properties of transparent polycrystalline ceramic materials
Tásler, Jan ; Pouchlý, Václav (referee) ; Maca, Karel (advisor)
The presented diploma thesis is focused on the preparation and properties of transparent polycrystalline ceramic materials based on Al2O3. Theoretically, the most important technological aspects of the processing of these materials are presented. Detailed attention is given to transparent Al2O3 polycrystalline ceramics doped with rare earth elements. The influence of microstructural parameters on the optical properties (represented by RIT) is investigated on Al2O3 samples doped and codoped with dysprosium, terbium and chromium. A significant effect of the average grain size on the light transmittance of all samples is observed. The highest RIT = 55 % (measured by a laser beam with a wavelength of 632,8 nm) was achieved by an optimized preparation process for a sample doped with 0,05 at. % of dysprosium. For all samples photoluminescent properties are also analysed. The photoluminescent emission spectra correspond to the activation of doping elements. In case of the terbium and chromium codoped samples, the differences in the activation of individual dopants depending on different excitation wavelengths were demonstrated, resulting in different colour emissions for different excitation wavelengths.
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Ceramic materials based on spinel MgAl2O4 for optical applications
Rychnovský, Daniel ; Maca, Karel (referee) ; Drdlík, Daniel (advisor)
This diploma thesis deals with preparation of transparent ceramics based on spinel MgAl2O4 and effect of Cr3+, Tb3+ doping on optical properties. Preparation of samples was optimized using several ways to prepare non-defect ceramic samples with the highest relative density of green body. The final step of the processing included hot isostatic pressing resulting in transparent undoped and doped spinel ceramics. The highest values of RIT (real in- line transmittance) of undoped and doped samples were measured between 77–79 %. It was found by measuring photoluminescence properties of prepared samples that increasing concentration of Cr3+ resulted to higher peak intensities. The most intense emission peak was measured in red spectral area at wavelength of 685 nm. In the case of Tb3+-doped spinel, the maximum peak intensities were measured at concentration of 0.075 at. % and the most intense emission peak was measured in green spectral area at wavelength of 545 nm.
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Processing and properties of transparent polycrystalline ceramic materials
Tásler, Jan ; Pouchlý, Václav (referee) ; Maca, Karel (advisor)
The presented diploma thesis is focused on the preparation and properties of transparent polycrystalline ceramic materials based on Al2O3. Theoretically, the most important technological aspects of the processing of these materials are presented. Detailed attention is given to transparent Al2O3 polycrystalline ceramics doped with rare earth elements. The influence of microstructural parameters on the optical properties (represented by RIT) is investigated on Al2O3 samples doped and codoped with dysprosium, terbium and chromium. A significant effect of the average grain size on the light transmittance of all samples is observed. The highest RIT = 55 % (measured by a laser beam with a wavelength of 632,8 nm) was achieved by an optimized preparation process for a sample doped with 0,05 at. % of dysprosium. For all samples photoluminescent properties are also analysed. The photoluminescent emission spectra correspond to the activation of doping elements. In case of the terbium and chromium codoped samples, the differences in the activation of individual dopants depending on different excitation wavelengths were demonstrated, resulting in different colour emissions for different excitation wavelengths.
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