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Lecturer(s)
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Slodička Lukáš, Mgr. Ph.D.
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Podhora Lukáš, Mgr.
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Course content
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Cavity resonator: ideal cavity resonator, theory of cavity resonators, modes a their properties. Dielectric resonators, theory, modes and their properties. Type of optical resonators. Gauss beam and its transformation. Waveguided structures: mirror and dielectric, plannar and cylinder symmetry. Theory of plannar waveguide, disperzion and losses. Theory of coupled modes. Optical fibers, their theory.
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Learning activities and teaching methods
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Lecture
- Attendace
- 30 hours per semester
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Learning outcomes
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Give information about description of optical resonators and waveguides.
Knowledge Define the main ideas and conceptions of the subject, describe the main approaches of the studied topics, recall the theoretical knowledge for solution of model problems.
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Prerequisites
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Knowledge of a theory of electromagnetic field in extent of basic course.
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Assessment methods and criteria
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Oral exam, Written exam
Knowledge in the extension of the lecture
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Recommended literature
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- F.T. Arecchi, E.O. Schulz-Dubois: Laser Handbook I., II. North-Hollad, 1972. - H.A. Haus: Waves and fields in optoelectronic. Prentice-Hall, 1984. - D. Marcuse: Light transmision optics. Van Nostrand Reinhold, 1972. - Ju.A. Ananev: Optičeskije rezonatory i problema raschodimosti lasernovo izlučenija. Nauka, 1979. .
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C. Yeh, F. Shimabukoro. (2008). The essence of dielectric waveguides. Springer.
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