Digital Teaching
Informations will be available in the moodle course of this module a week before the start of the lecture period.

Lehrinhalte
Rough outline of the lecture:
1. Introduction
2. Static properties of atomic nuclei
3. Introduction to particle physics
4. Phenomenology of nuclear force
5. Concepts of simple models for nuclear structure
6. Radioactive decay
7. Nuclear astrophysics (if time allows)
 

Literature
Selection of textbooks:
[list]
[*]Demtröder, Experimentalphysik 4
[*]Henley, Garcia, Subatomic Physics
[*]Krane, Introductory Nuclear Physics
[*]Mayer-Kuckuk, Kernphysik
[*]Povh, Rith, Scholz, Zetsche, Teilchen und Kerne
[/list]
Script (in German) will be supplied.

Voraussetzungen
recommended:
Quantum mechanics (Theor. Physics II)
Physics I-IV (Mechanics, Thermodynamics, Elektrodynamics, Relativistic Mechanics, Atomistic physics)
Kernphysik-Versuche aus dem Grundpraktikum
German language

Erwartete Teilnehmerzahl
40-50

Further Grading Information
Exam: oral or written examination

A grade bonus can be obtained through active participation in the exercises.
 

Official Course Description
Students
[list]
[*]know concepts, phenomena, and notions of nuclear physics as well as examples for nuclear applications,
[*]are capable of understanding nuclear models and formulating a mathematical ansatz for nuclear-physics problems,
[*]and are competent in solving problems with respect to  nuclear and particle physics, communicating the results, and estimating the accuarcy of their analyses.
[/list]

Online-Angebote
moodle

Semester: ST 2021