Course PHY-PFTP-030-K-2
Quantum theory I (4V+2U, 9.0 LP)
Course Type
| SWS | Type | Course Form | CP (Effort) | Presence-Time / Self-Study | |
|---|---|---|---|---|---|
| - | K | Lecture with exercise classes (V/U) | 9.0 CP | 186 h | |
| 4 | V | Lecture | 56 h | ||
| 2 | U | Exercise class (in small groups) | 28 h | ||
| (4V+2U) | 9.0 CP | 84 h | 186 h | ||
Basedata
| SWS | 4V+2U |
|---|---|
| CP, Effort | 9.0 CP = 270 h |
| Position of the semester | 1 Sem. in WiSe |
| Level | [2] Bachelor (Fundamentals) |
| Language | [DE] German |
| Lecturers |
Lecturers of the department Physics
|
| Area of study | [PHY-TP] Theoretical Physics |
| Livecycle-State | [NORM] Active |
Possible Study achievement
- Verification of study performance: proof of successful participation in the exercise classes (ungraded)
- Details of the examination (type, duration, criteria) will be announced at the beginning of the course.
Exercise certificate usually by active participation in the exercises and successful completion of homework.
Possible Study achievement
- Verification of study performance: proof of successful participation in the exercise classes (incl. written examination)
- Examination number (Study achievement): 57132 ("Quantum theory I")
- Details of the examination (type, duration, criteria) will be announced at the beginning of the course.
Qualified exercise certificate usually by active participation in the exercises, successful completion of homework and passing the final exam for the exercises.
Contents
- Hilbert-Raum, Operatoren, Eigenfunktionen, Zustand (Zustandsvektor und statistischer Operator), Observable und Korrespondenzprinzip, Unschärferelationen
- Messung in der Quantenmechanik, Ortsdarstellung und Impulsdarstellung
- verschränkte Zustände, Bell-Ungleichungen
- Hamilton-Operator und Schrödingergleichung: Eindimensionale Probleme, harmonischer Oszillator, Potentialtopf, Bewegung im Zentralpotential, H-Atom
- Drehimpulsalgebra, Bahndrehimpuls und Spin, Störungstheorie, Zeeman-Effekt, Stark-Effekt, identische Teilchen, He-Atom
Literature
- Shankar: Principles of Quantum Mechanics, Plenum Press
- Sakurai: Modern Quantum Mechanics, Addison Wesley
- Messiah: Quantenmechanik, de Gruyter
- Müller: Quantenmechanik, Oldenbourg
Materials
Current information and materials accompanying the course will be announced in the lecture or on the website of the course.
Registration
Registration for the exercises is required. Details will be announced during the first lecture.
Requirements for attendance (informal)
Courses
- [PHY-PFEP-023-K-2] Electromagnetism and optics (4V+2U, 8.0 LP)
- [PHY-PFTP-044-K-2] Theoretical fundamentals of classical physics (4V+2U, 9.0 LP)
Requirements for attendance (formal)
None
References to Course [PHY-PFTP-030-K-2]
| Module | Name | Context | |
|---|---|---|---|
| [PHY-G3-M-2] | Fundamentals of quantum physics | P: Obligatory | 4V+2U, 9.0 LP |
| [PHY-QT-M-5] | Quantum Theory | P: Obligatory | 4V+2U, 9.0 LP |
| Course-Pool | Name | ||
| [PHY-WMMolBP-KPOOL-6] | Wahlmodul molekulare Biophysik | ||
| [PHY-WPh-KPOOL-7] | Wahlbereich Physik |
Notes on the module handbook of the department Physics
Die offiziellen Modulhandbücher finden Sie unter https://www.physik.uni-kl.de/studium/modulhandbuecher/ .