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Apartment Building in Bystřice nad Pernštejnem
Schauer, Petr ; Pilný, Ondřej (referee) ; Kalousek, Lubor (advisor)
The subject of this bachelor's thesis is project documentation for the new construction of an apartment building in Bystřice nad Pernštejnem. The solved object is located on the northwestern edge of the city. It is a three-storey non-basement building. On the second and third floors there are seven residential units, sizes 1 + KK and 2 + KK. On the first floor there are four garage spaces with cellars. It includes three separate cellars, utility room, carriage house and cleaning room. It is a brick building made of sand-lime bricks. The construction system is mixed and based on foundation strips. Ceiling structures are designed as monolithic ceiling slabs. The roofing is designed as a single-skin flat roof structure. The building is also equipped with an elevator and wheelchair access. In front of the building there are four outdoor parking spaces, one of which is for people with reduced mobility. Access to the building is possible through paved areas. The whole building is insulated with the ETICS system. Facade colors are designed in shades of white and gray with anthracite fillings of openings.
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Cathodoluminiscence of polysilane composites
Neděla, David ; Kuřitka, Ivo (referee) ; Schauer,, Petr (advisor)
Samples with thin layer of poly[methyl(phenyl)silylene] were prepared for cathodoluminescence measurement. Dependence of cathodoluminescence on temperature was studied on these samples. Spectra of emitted light were measured on the samples when they were gradually heated to 20, 50, 75, 100 and 125°C. Kinetics of the process of poly[methyl(phenyl)silylene] regeneration at higher temperature was observed. Samples of polysilylene were displayed by scanning electron microscopy.
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Administrative building in Bystřice nad Pernštejnem - construction technology project
Schauer, Petr ; Nečasová, Barbora (referee) ; Venkrbec, Václav (advisor)
The diploma thesis deals with the construction technology project of the Administrative Building of SPH Stavby. The work is focused on object SO 02 – Operational building in Bystřice nad Pernštejnem. The content of the work also focuses on rough construction, especially reinforced concrete monolithic constructions. In the diploma thesis, a technological regulation, a construction site equipment project, a design of machine assemblies, a noise study and an inspection and test plan are elaborated.
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Apartment Building in Bystřice nad Pernštejnem
Schauer, Petr ; Pilný, Ondřej (referee) ; Kalousek, Lubor (advisor)
The subject of this bachelor's thesis is project documentation for the new construction of an apartment building in Bystřice nad Pernštejnem. The solved object is located on the northwestern edge of the city. It is a three-storey non-basement building. On the second and third floors there are seven residential units, sizes 1 + KK and 2 + KK. On the first floor there are four garage spaces with cellars. It includes three separate cellars, utility room, carriage house and cleaning room. It is a brick building made of sand-lime bricks. The construction system is mixed and based on foundation strips. Ceiling structures are designed as monolithic ceiling slabs. The roofing is designed as a single-skin flat roof structure. The building is also equipped with an elevator and wheelchair access. In front of the building there are four outdoor parking spaces, one of which is for people with reduced mobility. Access to the building is possible through paved areas. The whole building is insulated with the ETICS system. Facade colors are designed in shades of white and gray with anthracite fillings of openings.
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Stable Ce4+ centres - a tool to optimize cathodoluminescence performance in garnet scintillators
Lalinský, Ondřej ; Schauer, Petr ; Rathaiah, M. ; Kučera, M.
Garnet single crystals are widely used as scintillators in electron detectors. Cerium activated lutetium aluminum garnet Cex:Lu3-xAl5O12 (LuAG:Ce) is a promising example of such material for these applications. This is mainly due to its high light yield (LY) of 25 kph/MeV, short decay time of 60–80 ns, high atomic density (6.7 g/cm3), and high radiation stability with no hygroscopicity. The cathodoluminescence (CL) performance can be improved by Ga and Gd doping the garnet matrix. Proper admixture of these elements can increase the LY to 50–60 kph/MeV in addition to eliminating unwanted slower decay components. There was an idea that further decay acceleration can be achieved by doping the garnet with monovalent (Li+) or divalent ions (Mg2+, Ca2+). This should increase the valency of some Ce3+ centres to Ce4+ which should better compete with electron traps, and thus accelerate the decay. Our previous work proved the same decay trend, however, at a price of the LY. Such LY loss may induce the idea, if the stable Ce4+ centres are really participating in Ce3+ emission.
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New detectors for low-energy BSE
Lalinský, Ondřej ; Schauer, Petr ; Kučera, M. ; Hanuš, M. ; Lučeničová, Z.
Backscattered electrons (BSE) are mostly used to study the specimen’s topography. Nowadays, low energy (units of keV) electron beam imaging is often necessary for example for the research of nanomaterials, biomaterials or semiconductors. Because BSE detectors are mostly non-accelerating or low-accelerating, electrons with approximately the same energy as primary beam (PB) have to be detected. Therefore, BSE detectors need to become optimized for such low-energy electrons. For the scintillation detectors, the biggest problem probably lies in the scintillator. Semiconductor detectors aren’t studied in this work. Cerium activated bulk single crystals of yttrium aluminium garnet (YAG:Ce)Ce(X):Y(3-X)Al(5)O(12) are widely used as scintillators for the detection of high-energy backscattered electrons (BSE). However, commonly used YAG:Ce single crystal strongly loses its light yield (LY) with the decrease of the PB energy. As possible available alternatives for this application, bulk single crystals of yttrium aluminium perovskite (YAP:Ce) Ce(x)Y(1-X)AlO(3) and CRY018 can be predicted. However, similar LY drop can be expected also with these scintillators.
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Cathodoluminiscence of polysilane composites
Neděla, David ; Kuřitka, Ivo (referee) ; Schauer,, Petr (advisor)
Samples with thin layer of poly[methyl(phenyl)silylene] were prepared for cathodoluminescence measurement. Dependence of cathodoluminescence on temperature was studied on these samples. Spectra of emitted light were measured on the samples when they were gradually heated to 20, 50, 75, 100 and 125°C. Kinetics of the process of poly[methyl(phenyl)silylene] regeneration at higher temperature was observed. Samples of polysilylene were displayed by scanning electron microscopy.
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Performance of YAG:Ce Scintillators for Low-Energy Electron Detectors in S(T)EM
Lalinský, Ondřej ; Bok, Jan ; Schauer, Petr ; Frank, Luděk
Cerium activated single crystals of yttrium aluminium garnet (YAG:Ce) Y3-xCexAl5O12 are widely used as scintillators in electron detectors for S(T)EM. Nowadays, it is sometimes necessary to detect low-energy electrons without post-acceleration. In such cases, extremely sensitive detectors are required that are able to detect even electrons with energies of only hundreds of eV while avoiding charging of the scintillator surface. However, commonly used scintillators strongly lose their light yield with the decrease of the incident electron energy. Moreover, a thinner conductive layer on the scintillator surface has to be used to allow low-energy electrons to pass through. Possible charging of the surface negatively affects its cathodoluminescence (CL) light yield. The low-energy electron excitation takes place closer to the scintillator surface where damage can be expected owing to its preparation, which also reduces the CL light yield. The aim was to study the influence of the scintillator and its conductive layer on the low-energy electron detection efficiency.
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Innovation possibilities of scintillation electron detector for SEM
Schauer, Petr ; Bok, Jan
To evaluate performance of a scintillation detection system for SEM, it is necessary to consider many scintillator parameters. Various attributes of the scintillator for the SEM electron detector are listed in. The very important parameters are those affecting the detective quantum efficiency (DQE) which is primarily a measure of image noise. Not a less important indicator of image quality is the modulation transfer function (MTF) which describes the ability to show fine image details. Therefore, using a scanning imaging system, the detector bandwidth, which is given especially by the scintillator decay time, is the key to the good MTF. Currently, the YAG:Ce single crystal scintillator (introduced already in 1978 having somewhat limiting decay characteristic is the most frequently used scintillator in the SEM. The aim of this paper is to outline possibilities of scintillator innovation to get the improved MTF and DQE.
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Current state and prospects of scintillation materials for detectors in SEM
Schauer, Petr ; Bok, Jan
The two principal quantities are important for assessing the quality of each imaging system. Firstly, it is the detective quantum efficiency (DQE), which is primarily a measure of image noise. As the DQE is determined by signal to noise ratio (SNR), the efficient and noise-free components are the key to the high DQE. Second, not less important indicator of image quality is also the modulation transfer function (MTF). MTF describes the ability of adjacent pixels to change from black to white in response to patterns of varying spatial frequency, and hence it determines the actual capability to show fine detail, whether with full or reduced contrast. Using a scanning imaging system the fast components are the key to the good MTF. In a scintillation electron detector of scanning electron microscope (SEM) the scintillator is the most crucial component, because it significantly influences both the DQE and MTF. The aim of this study is to assess the scintillation materials suitable for SEM detectors characterized by the both high efficiency and fast decay characteristic.
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