Introduction to Laser Technique
Code | Completion | Credits | Range | Language |
---|---|---|---|---|
12ULAT | KZ | 2 | 1+1 | Czech |
- Relations:
- It is not possible to register for the course 12ULAT if the student is concurrently registered for or has already completed the course 12ULT (mutually exclusive courses).
- It is not possible to register for the course 12ULAT if the student is concurrently registered for or has already completed the course 12ULTB (mutually exclusive courses).
- It is not possible to register for the course 12ULAT if the student is concurrently registered for or has previously completed the course 12ULTB (mutually exclusive courses).
- Course guarantor:
- Helena Jelínková, Jan Šulc
- Lecturer:
- Helena Jelínková, Jan Šulc
- Tutor:
- Helena Jelínková, Jan Šulc
- Supervisor:
- Department of Laser Physics and Photonics
- Synopsis:
-
Overview of electromagnetic radiation sources; laser principle; classification of lasers; characterization and rough application of various types of lasers; laser safety precautions. The laser amplifier, Q-switching, mode-locking.
- Requirements:
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Basic course of physics.
- Syllabus of lectures:
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Light as electromagnetic radiation; a substance as a set of quantum systems; the interaction of light with matter, detection. Conventional optical sources. The principle of laser; laser classifications; solid state lasers; liquid lasers; gas lasers; plasma lasers; semiconductor lasers; basic laser application. Laser safety precautions.Oscillator, amplifier, Q-switching, mode-locking.
- Syllabus of tutorials:
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1.Basic concepts related to optical and electromagnetic radiation spectrum
The relationship between wavelength and frequency.
2.Open resonators. The stability of the open resonator.
3.Boltzmann distribution, population inversion, energy levels. Interaction of light with
matter: absorption, spontaneous emission and stimulated emission.
4.Detection of optical radiation: the external and internal photoelectric effect.
5.Test.
6.Calculation of the laser threshold conditions. Gain coefficient and the coefficient of losses.
7.Generation of laser radiation, the threshold gain active medium, extractable energy
of the active medium, the photon lifetime, the resonator quality factor.
8.Examples of most important characteristics of lasers in various categories.
9.Solid state lasers. Calculation of the laser efficiency, laser output power. 3 - and 4-
level model of the laser. Application of solid-state lasers.
10.Gas laser. Examples of gas lasers in various categories. Application of gas lasers.
11.Dye lasers, examples. Characteristics of semiconductor lasers.
12th Oscillator, amplifier
13th Q-switching, mode-locked.
14.Test
- Study Objective:
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Knowledge: laser oscillator, the threshold condition for generation of radiation, gain, losses, categorization of lasers, laser applications, safety regulations
Skills: the principles of laser radiation understanding; determination of the laser system basic components, different types of lasers and their applications, safety rules for working with lasers.
- Study materials:
-
Key references:
[1] M. Vrbova, H. Jelínková, P. Gavrilov, Introduction to Laser Technology, Czech Technical University in Prague, 1994
Recommended references:
[1] Walter Koechner, Solid-State Laser Engineering, Springer-Verlag Berlin Heidelberg New York 1999
- Note:
- Time-table for winter semester 2024/2025:
-
06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon Tue Wed Thu Fri - Time-table for summer semester 2024/2025:
- Time-table is not available yet
- The course is a part of the following study plans:
-
- Kvantové technologie (compulsory course in the program)
- Quantum Technologies (compulsory course in the program)