|
|
Effect of vibration on image quality of the electron microscope
Šafář, Pavel ; Horák, Karel (referee) ; Havránek, Zdeněk (advisor)
My thesis focuses on one the parasitic factors influencing an electron microscope during recording - i.e. the vibrations. Their impact on the quality of the shots is crucial and it is thus desirable to discover the origin of the vibrations and the way they are transmitted on the device and also to strive to eliminate this phenomen as much as possible. Measurements to estimate the source of vibration on the device as well as in its surrounding are a part of my work.
|
|
|
Application of Modern Technology for Manufacturing of Prototype Model of Fixation Handle of Keyboard Stand
Rozum, Jakub ; Jaroš, Aleš (referee) ; Sedlák, Josef (advisor)
This thesis is focused on manufacturing of prototype model of fixation handle of keyboard stand using modern vacuum casting technology. The first chapter is focused on product analysis. The following parts of the thesis consist of research dealing with issues of vacuum casting and materials used for this technology, especially casting resins. Part of the thesis is manufacturing of a silicone mold based on already existing component, which is used for the casting of the new component. The silicone mold is made of a silicone mixture Silastic T – 4, for the casting of the new component is selected casting material SG 2000 / Komp. A + B. For vacuum process is used vacuum chamber MK Mini. Bachelor thesis is completed by technical and economic evaluation.
|
|
|
Use of a special optical fiber in an electron microscope chamber
Černek, Ondrej ; Konečný, Martin (referee) ; Pavera, Michal (advisor)
This bachelor thesis is concerned about the modification of vacuum chamber of the Scanning Electron Microscope VEGA developed by TESCAN Brno s.r.o. in order to implementation of Scanning Probe Microscope. Moreover, it is dedicated to development of apparatus for using hollow optical fiber allowing the guidance of light and various gases on the sample surface placed in the vacuum of electron microscope. By using the hollow optical fiber as a probe of Scanning Probe Microscope, it is possible to work with a tip with specific properties. A brief introduction to Scanning Electron Microscopy and Atomic Force Microscopy is presented in the theoretical part. Furthermore, there is a technique of using optical fibers in Scanning Near-field Optical Microscopy described. Also a problem of vacuum systems, gas flow through the pipe and technique of Gas Injection System is introduced. In the construction part, there are initiated steps in the development of the vacuum chamber and the apparatus allowing the guidance of hollow optical fiber into the chamber of microscope. The experimental part presents the result of measurements obtained by probe of Scanning Probe Microscope with modified optical fiber and gas transmissivity of hollow optical fiber.
|
|
|
Working chamber of electron beam welder
Červinka, Petr ; Mrňa, Libor (referee) ; Daněk, Ladislav (advisor)
The submitted work deals with the design of the working chamber of the electron beam welders. This vacuum chamber of the cubic shape, with a volume of approx. 100 litres will be used in the ÚPT of the AV ČR v.v.i. during building an experimental welding with electron gun performance 2 kW with accelerating voltage 60 kV. The theoretical part is about the theory of electron welding, electron beam welders of basic sections of the facility, and about possibilities of the technology for welding working chambers. In the practical part of the thesis is being thought out the design of the working chamber (construction chamber in design software), the strength test of construction chamber in the software ANSYS and the design of appropriate methods of welding. The sample of the material which is the stainless steel 17240, from which the chamber will be made, have been used in methods of welding TIG and MAG that was verified by the suitability of the chosen methods of welding.
|
|
|
Design of a modular miniaturized apparatus for ion trapping
Jedlička, Petr ; Pham, Minh Tuan ; Grim, Jakub ; Čížek, Martin ; Čepil, Adam ; Slodička, L. ; Číp, Ondřej
We are developing a new experimental apparatus for laser cooling of trapped ions, focusing on high electric field homogeneity, modularity and small size. The apparatus allows measurements with Coulomb crystals and easy modification for different experiments. The high homogeneity trap is created by electrospinning, while the modularity allows for the exchange of key parts. By miniaturizing the dimensions, we achieve a larger numerical aperture of the lens and a reduction in the size of the magnetic shielding. This portable apparatus offers new possibilities for ion studies and is promising for applications in satellite systems and reconnaissance satellites.
|
|
| |
|
|
Use of a special optical fiber in an electron microscope chamber
Černek, Ondrej ; Konečný, Martin (referee) ; Pavera, Michal (advisor)
This bachelor thesis is concerned about the modification of vacuum chamber of the Scanning Electron Microscope VEGA developed by TESCAN Brno s.r.o. in order to implementation of Scanning Probe Microscope. Moreover, it is dedicated to development of apparatus for using hollow optical fiber allowing the guidance of light and various gases on the sample surface placed in the vacuum of electron microscope. By using the hollow optical fiber as a probe of Scanning Probe Microscope, it is possible to work with a tip with specific properties. A brief introduction to Scanning Electron Microscopy and Atomic Force Microscopy is presented in the theoretical part. Furthermore, there is a technique of using optical fibers in Scanning Near-field Optical Microscopy described. Also a problem of vacuum systems, gas flow through the pipe and technique of Gas Injection System is introduced. In the construction part, there are initiated steps in the development of the vacuum chamber and the apparatus allowing the guidance of hollow optical fiber into the chamber of microscope. The experimental part presents the result of measurements obtained by probe of Scanning Probe Microscope with modified optical fiber and gas transmissivity of hollow optical fiber.
|
|
|
Application of Modern Technology for Manufacturing of Prototype Model of Fixation Handle of Keyboard Stand
Rozum, Jakub ; Jaroš, Aleš (referee) ; Sedlák, Josef (advisor)
This thesis is focused on manufacturing of prototype model of fixation handle of keyboard stand using modern vacuum casting technology. The first chapter is focused on product analysis. The following parts of the thesis consist of research dealing with issues of vacuum casting and materials used for this technology, especially casting resins. Part of the thesis is manufacturing of a silicone mold based on already existing component, which is used for the casting of the new component. The silicone mold is made of a silicone mixture Silastic T – 4, for the casting of the new component is selected casting material SG 2000 / Komp. A + B. For vacuum process is used vacuum chamber MK Mini. Bachelor thesis is completed by technical and economic evaluation.
|
|
|
Effect of vibration on image quality of the electron microscope
Šafář, Pavel ; Horák, Karel (referee) ; Havránek, Zdeněk (advisor)
My thesis focuses on one the parasitic factors influencing an electron microscope during recording - i.e. the vibrations. Their impact on the quality of the shots is crucial and it is thus desirable to discover the origin of the vibrations and the way they are transmitted on the device and also to strive to eliminate this phenomen as much as possible. Measurements to estimate the source of vibration on the device as well as in its surrounding are a part of my work.
|
|
|
Working chamber of electron beam welder
Červinka, Petr ; Mrňa, Libor (referee) ; Daněk, Ladislav (advisor)
The submitted work deals with the design of the working chamber of the electron beam welders. This vacuum chamber of the cubic shape, with a volume of approx. 100 litres will be used in the ÚPT of the AV ČR v.v.i. during building an experimental welding with electron gun performance 2 kW with accelerating voltage 60 kV. The theoretical part is about the theory of electron welding, electron beam welders of basic sections of the facility, and about possibilities of the technology for welding working chambers. In the practical part of the thesis is being thought out the design of the working chamber (construction chamber in design software), the strength test of construction chamber in the software ANSYS and the design of appropriate methods of welding. The sample of the material which is the stainless steel 17240, from which the chamber will be made, have been used in methods of welding TIG and MAG that was verified by the suitability of the chosen methods of welding.
|
guest ::
