PřF:F5060 Atom. and molecul.spectroscopy - Course Information
F5060 Atomic and molecular spectroscopy
Faculty of ScienceAutumn 2016
- Extent and Intensity
- 2/2/0. 4 credit(s) (plus extra credits for completion). Type of Completion: k (colloquium).
- Teacher(s)
- doc. RNDr. Antonín Brablec, CSc. (lecturer)
doc. Mgr. Zdeněk Navrátil, Ph.D. (lecturer)
doc. Mgr. Pavel Slavíček, Ph.D. (lecturer)
doc. Mgr. Zdeněk Navrátil, Ph.D. (seminar tutor) - Guaranteed by
- prof. RNDr. Jan Janča, DrSc.
Department of Plasma Physics and Technology – Physics Section – Faculty of Science
Contact Person: doc. RNDr. Antonín Brablec, CSc.
Supplier department: Department of Plasma Physics and Technology – Physics Section – Faculty of Science - Timetable
- Mon 19. 9. to Sun 18. 12. Wed 12:00–13:50 F4,03017, Fri 8:00–9:50 F3,03015
- Course Enrolment Limitations
- The course is offered to students of any study field.
- Course objectives
- At the end of the course the students will understand basics of atomic and molecular physics making possible to use them for diagnostics of plasmas by means of optical spectroscopy. Students obtain practical experiences at laboratory measurements of typical spectra as well as at solutions of typical problems from atomic and molecular spectroscopy.
- Syllabus
- Basic atomy theory
- one-electron atoms - Schrodinger equation for one-electron atoms, quantum numbers and wave function, probability density, electron spin and fine structure
- two-electron atoms - Schrodinger equation for two-electron atoms, Pauli principle, exchange interaction, general energy level structure of two-electron systems
- many-electron atoms - central field approximation, LS coupling, deviation from pure LS coupling, configuration interaction
- radiative transitions and selection rules - time-dependent perturbation, electromagnetic interaction, electric dipole approximation, selection rules for electric dipole transitions, selection rules and multiples in LS coupling, forbidden lines Atomic structure and atomic spectra
- one-electron systems - alkali metals, spectral series, other one-electron systems
- two-electron systems - systems with an s2 ground configuration, systems with a p2 ground configuration, rare gas systems
- complex atoms
- interpretation of spectra
- inner-shell excitation and autoionization
- isoelectronic sequences
- atomic structure and the periodic table
- nuclear effects - hyperfine structure, isotopes
- influence of external fields - Zeeman and Stark effect Analysis of atomic spectra
- observations, semiempirical relations, terms, determination of ionization energy, database of spectral lines and energy levels Molecular structure
- Born-Oppenheimer approximation
- electronic energy of diatomic molecules - symmetry properties of molecular orbitals, general structure of diatomic molecules, electronic states, vibrational and rotational energy of diatomic molecules
- polyatomic molecules Molecular spectra
- transition probabilities and selection rules for diatomic molecules rotational and vibrational spectra of diatomic molecules
- electronic spectra - Hund's coupling cases, Franck - Condon principle
- further effects in spectra of diatomic molecules - satellite bands, missing rotational lines, continuous spectra, predissociation
- Raman spectra
- spectra of polyatomic molecules
- Width and shape of spectral lines
- Elementary plasma spectroscopy
- Experimental methods
- Lectures are completed with laboratory exercises and solutions of typical problems from atomic and molecular spectroscopy.
- Literature
- TENNYSON, Jonathan. Astronomical spectroscopy : an introduction to the atomic and molecular physics of astronomical spectra. London: Imperial College Press, 2005, x, 192. ISBN 1860945139. info
- THORNE, Anne P., Ulf LITZÉN and Sveneric JOHANSSON. Spectrophysics : principles and applications. Berlin: Springer-Verlag, 1999, xiv, 433. ISBN 3540651179. info
- VAUGHAN, J. M. The Fabry-Perot interferometer :history, theory, practice and applications. Bristol: Adam Hilger, 1989, xix, 583 s. ISBN 0-85274-138-3. info
- GRIEM, Hans R. Uširenije spektral'nych linij v plazme. Moskva: Mir, 1970, 491 s. info
- MARR, Geopffrey V. Plasma spectroscopy. Amsterdam: Elsevier Scientific Publishing Company, 1968, xii, 316. info
- Teaching methods
- lectures, reading, solution of typical problems from atomic and molecular spectroscopy, lab exercises, discussion
- Assessment methods
- The presence in laboratory exercises, as well as during solutions of problems, is obligatory. The subject is finished as common discussion on relevant problems.
- Language of instruction
- Czech
- Further Comments
- Study Materials
The course can also be completed outside the examination period.
The course is taught annually.
- Enrolment Statistics (Autumn 2016, recent)
- Permalink: https://is.muni.cz/course/sci/autumn2016/F5060