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Key learning outcomes
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The Master course Optics and Optoelectronics provides the broader background for qualified theoretical as well as experimental work in optics and optoelectronics and related physical disciplines. Graduates will acquire the necessary knowledge of the main disciplines of optics such as geometric, wave, quantum and statistical optics, as well as in the fields of modern optoelectronic systems and optical measurements. By choosing a diploma thesis, they will specialize in directions such as quantum optics and computer science, spectroscopy, digital holography, laser physics, optical information processing, optoelectronics or optical systems and instruments. They are led to creative work in the field with an emphasis on the use of computer technology and modern information technology. Graduates are able to apply their knowledge in the theoretical analysis of optical phenomena and experimental configurations, are able to numerically simulate and model them and they are able to independently perform optical measurements and analyze experimental data. Graduates are able to apply the latest knowledge and methodological approaches and are familiar with modern information technology and professional literature. They are equipped with the necessary competencies for the activities of a specialist in the field of optical and optoelectronic research and development. A broader overview of the graduate creates preconditions for his high adaptability and flexibility even in related physical fields. Graduates are able to solve complex optical and physical problems and can successfully use the acquired knowledge and skills in solving problems in practice.
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