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Course, academic year 2024/2025
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Fundamentals of Optical Spectroscopy - NAFY030
Title: Základy optické spektroskopie
Guaranteed by: Department of Chemical Physics and Optics (32-KCHFO)
Faculty: Faculty of Mathematics and Physics
Actual: from 2021
Semester: summer
E-Credits: 3
Hours per week, examination: summer s.:2/0, Ex [HT]
Capacity: unlimited
Min. number of students: unlimited
4EU+: no
Virtual mobility / capacity: no
State of the course: taught
Language: Czech
Teaching methods: full-time
Note: enabled for web enrollment
Guarantor: prof. RNDr. Jan Valenta, Ph.D.
RNDr. Milan Orlita, Ph.D.
Teacher(s): RNDr. Roman Antoš, Ph.D.
RNDr. Martin Veis, Ph.D.
Annotation - Czech
Disperzní optická spektroskopie, interferometry ve spektroskopii, Fourierovská spektroskopie, vlastnosti detektorů záření, základní metody měření optických vlastností látek.
Last update: T_KFES (23.04.2009)
Aim of the course -

To give information on methods of optical spectroscopy.

Last update: Antoš Roman, RNDr., Ph.D. (11.06.2019)
Course completion requirements -

oral exam

Last update: Antoš Roman, RNDr., Ph.D. (11.06.2019)
Literature -

A.N. Zajdel, G.V. Ostrovskaja, J.I. Ostrovskij, Technika i praktika spektroskopii, Nauka, Moskva 1972.

V.I. Malyšev, Vvedenije v experimentalnuju spektroskopiju, Nauka. Moskva 1979.

J.E. Stewart, Infrared Spectroscopy, Marcel Dekker - New York 1970

W. Demtroder, Laser Spectroscopy - Basic concepts and Instrumentation, Springer Verlag 1981.

R.J. Bell, Introductory Fourier Transform Spectroscopy, Academic Press 1972.

K.I. Tarasov, Svetosilnyje spektralnyje pribory, Nauka, Moskva 1988.

J. Chamberlain, The principles of interferometric spectroscopy, John Wiley 1979.

P.R. Griffiths, J.A. de Haseth, Fourier Transform Infrared Spectrometry, John Wiley 1986.

Last update: Antoš Roman, RNDr., Ph.D. (11.06.2019)
Teaching methods -

Lecture

Last update: Antoš Roman, RNDr., Ph.D. (11.06.2019)
Requirements to the exam -

knowledge of the topics explained at lectures

Last update: Antoš Roman, RNDr., Ph.D. (11.06.2019)
Syllabus -

1. Dispersive spectrometers: prism and grating instruments, basic properties (apparatus function, light gathering power). Types and properties of gratings, their mountings, methods of production.

2. Interferometric systems, Fabry - Perot interferometer.

3. Laser spectroscopy: principles of tunable lasers.

4. Fourier transform spectroscopy: advantages, treatment of interferograms (apodization, sampling, phase correction), field of view and throughput advantage.

Last update: Antoš Roman, RNDr., Ph.D. (11.06.2019)
 
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