Atomic and molecular physics

Lecturer:

David Břeň (gar.)

Tutor:

David Břeň (gar.)

Supervisor:

Department of Physics

Synopsis:

This lecture course provides a theoretical introduction to atomic and molecular physics.

Requirements:

Knowledge of basic course of physics

02TEF1,2 Theoretical physics 1,2

Syllabus of lectures:

1.Radiative transitions

2.Hydrogen atom and alkali-metal atoms

3.Helium atom

4.Vector model of atom

5.Hund's rules

6.General molecular Hamiltonian and Born-Oppenheimer approximation

7.Molecular symmetry

8.H2+

9.H2

10.Diatomic molecules

11.Polyatomic molecules

12.Interactions with radiation

Syllabus of tutorials:

Calculations of examples on:

1.Radiative transitions

2.Hydrogen atom and alkali-metal atoms

3.Helium atom

4.Vector model of atom

5.Hund's rules

6.General molecular Hamiltonian and Born-Oppenheimer approximation

7.Molecular symmetry

8.H2+

9.H2

10.Diatomic molecules

11.Polyatomic molecules

12.Interactions with radiation

Study Objective:

Knowledge: to learn the basic of atomic and molecular physics, to solve simple QM equation.

Skills: application on the solution of examples

Study materials:

Key references:

[1] S.Erkoç and T. Uzer, Atomic and molecular physics, World Scientific, 1996

Recommended references:

[2] H. Haken and H. Ch. Wolf, Molecular physics and elements of quantum chemistry, Springer 2003.

Note:

Time-table for winter semester 2011/2012:

Time-table is not available yet

Time-table for summer semester 2011/2012:

Time-table is not available yet

The course is a part of the following study plans: