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Studium, Studijní předměty, Garantované obory studia, Začínáme studovat, Doporučená schémata studia, Zkušenosti absolventů, Témata závěrečných prací , Úspěchy našich studentů, Průvodce studiem, Aplikovaná fyzika, Přístrojová fyzika, Učitelství fyziky, Nanotechnologie, (Aplikovaná fyzika), (Přístrojová fyzika), (Nanotechnologie), (Učitelství fyziky), Pro uchazeče, Pro studenty, Absolventi, Počítačová fyzika


Diplomový seminář 3 sticky icon

Course: M.Sc. Thesis Tutorial in Physics 3

Department/Abbreviation: KEF/DIPA3

Year: 2018 2019

Guarantee: 'doc. Ing. Luděk Bartoněk, Ph.D.'

Annotation:

  • Finalization of the required experiments and writing up the diploma thesis

Course review:
Finalization of the required experiments and writing up the diploma thesis

Diplomový seminář 2 sticky icon

Course: M.Sc. Thesis Tutorial in Physics 2

Department/Abbreviation: KEF/DIPA2

Year: 2018 2019

Guarantee: 'doc. Ing. Luděk Bartoněk, Ph.D.'

Annotation:

  • Experimental solving of the selected topic of the diploma thesis

Course review:
Experimental solving of the selected topic of the diploma thesis

Diplomový seminář sticky icon

Course: Master of Science Thesis Tutorial

Department/Abbreviation: KEF/BDS

Year: 2018 2019

Guarantee: 'Mgr. Milan Vůjtek, Ph.D.'

Annotation: Regular presentation and discussion of the achieved aims and results of the diploma thesis with other students and with the staff of the department

Course review:
Regular presentation and discussion of the achieved aims and results of the diploma thesis with other students and the staff of the department

Diplomový seminář 1 sticky icon

Course: M.Sc. Thesis Tutorial in Physics 1

Department/Abbreviation: KEF/DIPA1

Year: 2018 2019

Guarantee: 'doc. Ing. Luděk Bartoněk, Ph.D.'

Annotation:

  • Selection of the topic of the diploma thesis
  • Elaboration of literature research to the topic of the diploma thesis and adoption of experimental techniques for experimental solving of the problem of the diploma thesis

Course review:
Selection of the topic of the diploma thesis

  • Elaboration of literature research to the topic of the diploma thesis and adoption of experimental techniques for experimental solving of the problem of the diploma thesis

  • Technické materiály a technologie 2 sticky icon

    Info nedostupné/Not available

    Základy nauky o materiálu 2 sticky icon

    Course: Materials Science Basics 2

    Department/Abbreviation: SLO/ZNM2

    Year: 2018 2019

    Guarantee: 'prof. RNDr. Miroslav Hrabovský, DrSc.'

    Annotation: Gain an overview about technical metal and non-metal materials (including modern forms) and technologies of their production.

    Course review:
    Traditional technologies of technical materials production (iron and its alloys, alumina, glass) Non-ferrous metals and alloys (properties, applications, notationa) Sintered metal materials Non-metal technical materials - plastics - glass - ceramics Composites Crystalline materials (single and polycrystals) Single crystals production Intelligent materials

    Fotonické nanostruktury 2 sticky icon

    Course: Photonic Nanostructures 2

    Department/Abbreviation: SLO/BFN2

    Year: 2018 2019

    Guarantee: 'Ing. Jaromír Křepelka, CSc.', 'prof. RNDr. Jan Peřina, Ph.D.'

    Annotation: The aim is to acquire basic knowledge about nonlinear (parametric) processes and their application for a design of photonic structures, especially nonlinear layered structures understanding their quantum statistical effects.

    Course review:
    - Nonlinear polarization and description of nonlinear parametric processes, the second harmonics and subharmonics, Raman and Brillouin scattering - Various types of photonic nanostructures, nonlinear effects connected with surface states - Methods of description of nonlinear phenomena in the structures with significantly localized optical field, classical and quantum description - Spontaneous descending frequency conversion in nonlinear layered periodically-pole and waveguide structures, generation of photon pairs, quantum linkage of photon pairs, selected application of photon pairs - Statistical properties of light, generation of squeezed light in modern photonic structures, eigenmodes with regard to squeezing of quantum fluctuations, distributed feedback and conditions for maximum enhancement of nonlinear interaction - Photopulse statistics in spontaneous and stimulated descending frequency conversion

    Laserové technologie v praxi 2 sticky icon

    Course: Laser technologies in practice 2

    Department/Abbreviation: SLO/LTP2

    Year: 2018 2019

    Guarantee: 'RNDr. Hana Chmelíčková'

    Annotation: To inform students about laser role as the material processing tool by means both teoretical lectures and practic experiments in laser laboratory.

    Course review:
    1. Clasification of laser technologies: cutting, drilling, welding and surface treatment, processing parameters overview, suitable laser types 2. Temperature fields modeling in treated materials 3. Industrial laser system construction and its regulation, KLS 264-102 working parameters 4. Laser cutting 5. Laser welding 6. Laser surface treatment 7. Treated samples displaying (metalographic analyze,surface roughness measurement) 8. Laser industrial system safety precautions

    Fyzika pevných látek sticky icon

    Course: Solid State Physics

    Department/Abbreviation: SLO/PL

    Year: 2018 2019

    Guarantee: 'doc. Mgr. Jan Soubusta, Ph.D.'

    Annotation: Brief introduction to solid state physics. Starting point is the description of the geometry of different crystals. Regular arrangement permits to use energy band model and elementary excitations as phonons, plazmons or excitons.

    Course review:
    1. Spatial configuration of a crystal, crystal lattice, primitive cell. 2. Crystal diffraction, reciprocal lattice, Bragg diffraction law, Brillouin zone. 3. Crystal bonding, ionic crystals, covalent crystals, metals, crystals of inert gases. 4. Lattice vibrations, acoustical, optical phonons, dispersion relations, thermal properties. 5. Metals, Fermi gas of free electrons, thermal and electrical properties. 6. Energy bands, Bloch theorem, Bloch functions, central equation. 7. Semiconductors, dispersion relations of real materials (Si, Ge, GaAs). 8. Fermi surfaces in metals, nearly free electron approximation, tight binding method. 9. Quasiparticles, plasmons, polaritons, excitons. 10. Advanced topics, superconductivity, electric and magnetic properties.

    Učebnice (PDF, 14 MiB)

    Číslicové měřicí systémy 4 sticky icon

    Course: Digital Measuring Systems 4

    Department/Abbreviation: KEF/ČMS4

    Year: 2018 2019

    Guarantee: 'doc. RNDr. Jiří Pechoušek, Ph.D.'

    Annotation: Creation of more complex measuring devices

    Course review:
    " Programování číslicových měřicích systémů, tvorba náročných aplikací využívajících měřicí karty digitálního osciloskopu (NI PCI-5124), funkční generátor (NI PCI 5401), programování systému PXI (kontrolér PXI-8156B, digitální osciloskop PXI-5102, funkční generátor PXI-5401), tvorba aplikací pracujících v reálném čase, využití FPGA polí, programování systému CompactRIO, . " Pokročilé programování v LabVIEW, využití dalších nástrojů LabVIEW (programové balíčky) " Tvorba komplexních měřicích systémů. - Zpracování signálu a analýza dat v SW Wolfram Mathematica.