Atomic and Molecular Spectroscopy
| Code | Completion | Credits | Range | Language |
|---|---|---|---|---|
| 02AMS | Z,ZK | 4 | 2+2 | Czech |
- Garant předmětu:
- Lecturer:
- Tutor:
- Supervisor:
- Department of Physics
- Synopsis:
-
The lecture is devoted to atomic and molecular spectroscopy.
- Requirements:
-
Knowledge of basic course of physics and lecture 02TEF1,2 Theoretical physics 1,2
- Syllabus of lectures:
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1.Atomic and molecular systems
2.Hamiltonian of an isolated atomic/molecular system
3.Hamiltonian of an atomic/molecular system in a weak external (elmg)Field
4.Symmetry of atomic and molecular systems
5.Atomic and molecular spectra. Energy patterns and selection rules
6.Adiabatic separation of electronic and nuclear degrees of freedom (Born-Oppenheimer approximation)
7.Electronic Schroedinger equation (ab initio calculations)
8.Property surfaces of molecular systems (potential energy, electric and magnetic moments, hyperfine structure parameters,...)
9.Spin-rotation-vibration Schroedinger equation.
10.Microwave, submillimeter wave, infrared, visible and UV spectroscopy. Sources of radiation
11.Application of atomic and molecular spectroscopy in science and technology
12.Outlooks and open problems
- Syllabus of tutorials:
-
Calculations of examples on:
1.Atomic and molecular systems
2.Hamiltonian of an isolated atomic/molecular system
3.Hamiltonian of an atomic/molecular system in a weak external (elmg)Field
4.Symmetry of atomic and molecular systems
5.Atomic and molecular spectra. Energy patterns and selection rules
6.Adiabatic separation of electronic and nuclear degrees of freedom (Born-Oppenheimer approximation)
7.Electronic Schroedinger equation (ab initio calculations)
8.Property surfaces of molecular systems (potential energy, electric and magnetic moments, hyperfine structure parameters,...)
9.Spin-rotation-vibration Schroedinger equation.
10.Microwave, submillimeter wave, infrared, visible and UV spectroscopy. Sources of radiation
11.Application of atomic and molecular spectroscopy in science and technology
12.Outlooks and open problems
- Study Objective:
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Knowledge:
Methods used in molecular and atomic spectroscopy
Skills:
Using of above mentioned methods on certain problems of spectra recording
- Study materials:
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Key references:
[1] P.Bernath,„Spectra of Atoms and Molecules“ (Oxford University Press. New York, 1995).
Recommended references:
[2] D.Papousek,M.R.Aliev,„Molecular Vibrational-Rotational Spectra“ (Academia, Prague, 1982).
[3] P.R.Bunker,P.Jensen,„Fundamentals of Molecular Symmetry“ (IOP Publishing, Bristol, 2004).
[4] S.Mukamel,„Principles of Nonlinear Optical Spectroscopy“ (Oxford University Press. New York, 1995).
[5] J.M.Hollas,„Modern Spectroscopy“ (Wiley, New York, 1991).
- Note:
- Further information:
- No time-table has been prepared for this course
- The course is a part of the following study plans:
-
- BS Matematické inženýrství - Matematické modelování (elective course)
- BS Matematické inženýrství - Matematická fyzika (elective course)
- BS Matematické inženýrství - Aplikované matematicko-stochastické metody (elective course)
- BS Informatická fyzika (elective course)
- BS Aplikace softwarového inženýrství (elective course)
- BS Aplikovaná informatika (elective course)
- BS jaderné inženýrství B (elective course)
- BS Jaderné inženýrství C (elective course)
- BS Dozimetrie a aplikace ionizujícího záření (elective course)
- BS Experimentální jaderná a částicová fyzika (elective course)
- BS Inženýrství pevných látek (elective course)
- BS Diagnostika materiálů (elective course)
- BS Fyzika a technika termojaderné fúze (elective course)
- BS Fyzikální elektronika (elective course)
- BS Jaderná chemie (elective course)
- Fyzikální inženýrství - Fyzika plazmatu a termojaderné fúze (elective course)
- Fyzikální inženýrství - Inženýrství pevných látek (elective course)