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Advanced Chapters from Quantum Theory - NBCM148
Title: Pokročilé kapitoly z kvantové teorie
Guaranteed by: Department of Chemical Physics and Optics (32-KCHFO)
Faculty: Faculty of Mathematics and Physics
Actual: from 2022
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: cancelled
Language: Czech
Teaching methods: full-time
Teaching methods: full-time
Guarantor: doc. Ing. Pavel Soldán, Dr.
Annotation -
Last update: T_KCHFO (28.04.2014)
This lecture course provides selected chapters from advanced quantum theory with focus on applications of quantum mechanics in chemical physics, astrophysics, and astrochemistry. The course follows the lecture course Fundamentals of Quantum Theory (NOFY042) or its equivalent counterparts (NBCM110, NFPL010, NJSF094).
Aim of the course -
Last update: T_KCHFO (28.04.2014)

Introduce advanced methods of quantum theory necessary for chemical physics studies of molecules of astrophysical interest.

Literature -
Last update: T_KCHFO (25.04.2014)
  1. A. K. Pradhan and S. N. Nahar: Atomic astrophysics and spectroscopy, CUP, Cambridge 2011.
  2. P. F. Bernath: Spectra of atoms and molecules, OUP, Oxford 2005.
  3. J. Brown and A. Carrington: Rotational spectroscopy of diatomic molecules, CUP, Cambridge 2003.
  4. H. Lefebvre-Brion and R. W. Field: The spectra and dynamics of diatomic molecules, Elsevier, Amsterdam 2004.
  5. G. B. Rybicki and A. P. Lightman: Radiative processes in Astrophysics, Wiley-VCH, Berlin 2004.
  6. D. Papoušek and M. R. Aliev: Molecular vibrational-rotational spectra, Elsevier, Amsterdam 1982.
Teaching methods -
Last update: T_KCHFO (28.04.2014)

lecture

Syllabus - Czech
Last update: T_KCHFO (25.04.2014)
  1. Molekulární hamiltonián.
  2. Elektronické, vibrační a rotační stavy.
  3. Hundovy případy diatomických molekul.
  4. Spektrální přechody, výběrová pravidla.
  5. Vázané a kvazivázané (resonanční) stavy.
  6. Einsteinovy koeficienty, radiativní doby života.
  7. Numerické řešení 1D Schrödingerovy rovnice (Numerovova a Cooleyho metody)
  8. Chemické procesy v ranném vesmíru.
  9. Radiativní procesy.
  10. Radiativní asociace.
  11. Neradiativní procesy.
  12. Přenos náboje.
 
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