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Creation of plasmonic micro- and nanostructures by electron beam lithography
Babocký, Jiří ; Dvořák, Petr (referee) ; Kvapil, Michal (advisor)
This beachelor’s thesis deals with a fabrication of plasmonic antennas using electron beam lithography. First section consists of summary of a technologies that can be used for production of metallic micro and nanostructures on silicon and glass substrate. Second section provides a description of electron beam lithography method and technologies that are used for it. Final part describes experiments, that were done and empiric model describing dependance of dimension of fabricated structures on lithographic parameters.
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Optimalization of solar park operation
Kašpařík, Petr ; Vaněk, Jiří (referee) ; Dolenský, Jan (advisor)
This work deals with the comparison of photovoltaic technologies and optimization of Photovoltaic power plants using empirical models. The primary purpose of this work is to analyse current status of selected photovoltaic power plants in the Czech republic and to suggest possible means to increase their productivity. This analysis uses data measured by systems for direct management of these parks, and these data are compared with theoretical data calculated from measurement system Czech weather stations and PVGIS.
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Mathematical models for monitoring the main equipment of a thermal power plant
Kopecká, Eliška ; Marek,, Mynařík (referee) ; Milčák, Pavel (advisor)
The diploma thesis deals with the creation of an empirical model of a thermal power plant condenser. The individual devices of the thermal power plant are specified in the first chapter in more detail, which significantly affect its efficiency. The condenser in the Rankine-Clausius cycle is also described here. The second chapter is focused on the individual steps that lead to the creation of an empirical model. This chapter introduces the method of least squares, which is the main method of multivariate linear regression analysis. In the third chapter are described physical events in the condenser and possible defects that can limit its efficiency. The fourth chapter is the application of the second chapter to a specific case. It deals with the specific design of empirical condenser model for a specific thermal power plant. The last chapter describes the use of the empirical condenser model in practice for the detection of state changes in the condenser. At the end, the results of the work are evaluated.
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Dynamics of the bow shock and magnetopause
Jelínek, Karel ; Němeček, Zdeněk (advisor) ; Kudela, Karel (referee) ; Vandas, Marek (referee)
viii Title: Dynamics of the bow shock and magnetopause Author: Karel Jelínek Department: Department of Surface and Plasma Science Supervisor: Prof. RNDr. Zdeněk Němeček, DrSc. Department of Surface and Plasma Science e-mail address: zdenek.nemecek@mff.cuni.cz Abstract: The interplanetary space is a unique laboratory which allows us to dis- cover (i) a behavior of the plasma under different conditions, (ii) origin of its insta- bilities, and (iii) its interaction with obstacles such as the Earth's magnetosphere. The present thesis analyzes the outer Earth's magnetosphere. The results are based on the in situ sensing by a variety of the spacecraft (e.g., IMP-8, INTERBALL-1, MAGION-4, Geotail, Cluster-II and Themis). The solar wind curently monitored by the WIND and ACE spacecraft near the La- grange point L1 affects by its dynamic pressure the Earth's magnetic field which acts as a counter-pressure and the boundary where these pressures are balanced is the magnetopause. Due to supersonic solar wind speed, the bow shock forms in front of the magnetopause and a region in between, where plasma flows around an obstacle is named the magnetosheath. The thesis contributes to a deaper understanding of the dependence of magnetopause and bow shock shapes and positions, especially, (1) on the orientation of the inter-...
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Dynamics of the bow shock and magnetopause
Jelínek, Karel ; Němeček, Zdeněk (advisor) ; Kudela, Karel (referee) ; Vandas, Marek (referee)
viii Title: Dynamics of the bow shock and magnetopause Author: Karel Jelínek Department: Department of Surface and Plasma Science Supervisor: Prof. RNDr. Zdeněk Němeček, DrSc. Department of Surface and Plasma Science e-mail address: zdenek.nemecek@mff.cuni.cz Abstract: The interplanetary space is a unique laboratory which allows us to dis- cover (i) a behavior of the plasma under different conditions, (ii) origin of its insta- bilities, and (iii) its interaction with obstacles such as the Earth's magnetosphere. The present thesis analyzes the outer Earth's magnetosphere. The results are based on the in situ sensing by a variety of the spacecraft (e.g., IMP-8, INTERBALL-1, MAGION-4, Geotail, Cluster-II and Themis). The solar wind curently monitored by the WIND and ACE spacecraft near the La- grange point L1 affects by its dynamic pressure the Earth's magnetic field which acts as a counter-pressure and the boundary where these pressures are balanced is the magnetopause. Due to supersonic solar wind speed, the bow shock forms in front of the magnetopause and a region in between, where plasma flows around an obstacle is named the magnetosheath. The thesis contributes to a deaper understanding of the dependence of magnetopause and bow shock shapes and positions, especially, (1) on the orientation of the inter-...
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Optimalization of solar park operation
Kašpařík, Petr ; Vaněk, Jiří (referee) ; Dolenský, Jan (advisor)
This work deals with the comparison of photovoltaic technologies and optimization of Photovoltaic power plants using empirical models. The primary purpose of this work is to analyse current status of selected photovoltaic power plants in the Czech republic and to suggest possible means to increase their productivity. This analysis uses data measured by systems for direct management of these parks, and these data are compared with theoretical data calculated from measurement system Czech weather stations and PVGIS.
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Creation of plasmonic micro- and nanostructures by electron beam lithography
Babocký, Jiří ; Dvořák, Petr (referee) ; Kvapil, Michal (advisor)
This beachelor’s thesis deals with a fabrication of plasmonic antennas using electron beam lithography. First section consists of summary of a technologies that can be used for production of metallic micro and nanostructures on silicon and glass substrate. Second section provides a description of electron beam lithography method and technologies that are used for it. Final part describes experiments, that were done and empiric model describing dependance of dimension of fabricated structures on lithographic parameters.
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