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The presented topic is focused on a new area stimulated physical and chemical processes and derived technologies using interaction of a matter with an intense beam of ordered (coherent) high-energy photons. The base of the subject comprises a description of the function of power sources of coherent radiation, optical elements necessary for conduction and focus of the beam and examples of applications of laser technology, especially in the preparation of special materials and micro- and nanostructures. Study course is to prepare students for practical applications of fast emerging field that affects a wide range of technical innovations from simple local hardening to very sophisticated technology for the preparation of nanostructures.
Last update: Slepička Petr (31.08.2013)
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Students will be able to" Explain basic properties of unpolarized and polarized light beam. Present distribution of types of lasers and their characterization. Describe the events that occur by the interaction of the material with a laser beam. Last update: TAJ126 (24.09.2013)
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R: Myslík, V.: Quantum Electronics, Czech Technical University in Prague, 1988 R: Bäuerle D. Laser processing and Chemistry; Spriger-Verlag, 2000, ISSN 3-540-60541-X A: the BEA Saleh, MC Teich: Fundamentals of Photonics, translation of Matfyzpress books: Fundamentals of Photonics, 4 volumes, 1994 Last update: TAJ126 (23.09.2013)
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Subject matter is regularly repeated and discussed with students at lectures. This ensures the continuous control level of students' knowledge and clarity of lectures. The assessment of knowledge level and grading requires successful completion of a written test at the end of the semester. Last update: Slepička Petr (31.08.2013)
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1. Light and its physical properties. 2. Interference, diffraction, polarization. 3. Basic optical elements, microscope and interferometer. 4. Lasers in optics and magneto optics. 5. Sources of coherent radiation, laser technology. 6. Lasers in optics and magneto optics. 7. Types of power lasers, gas and solid state lasers. 8. Deflection, conduction and detection of laser beam. 9. Working with power laser radiation, protection from the radiation. 10. Deposition of thin films stimulated by laser beam. 11. Etching of semiconductors stimulated by laser beam. 12. Ablation of polymers stimulated by laser beam. 13. Selected chemical reactions stimulated by laser I. 14. Selected chemical reactions stimulated by laser II. Last update: Slepička Petr (31.08.2013)
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Educational materials available at the teacher. Last update: TAJ126 (28.11.2013)
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General and Inorganic Chemistry I Physics I Last update: Slepička Petr (31.08.2013)
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Physics I, Mathematics I Last update: Slepička Petr (31.08.2013)
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| Teaching methods | ||||
| Activity | Credits | Hours | ||
| Konzultace s vyučujícími | 0.5 | 14 | ||
| Účast na přednáškách | 1 | 28 | ||
| Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 0.5 | 14 | ||
| Příprava na zkoušku a její absolvování | 1 | 28 | ||
| 3 / 3 | 84 / 84 | |||
| Coursework assessment | |
| Form | Significance |
| Examination test | 100 |